CN100433253C - Exposure apparatus, exposure method, and method for producing device - Google Patents

Exposure apparatus, exposure method, and method for producing device Download PDF

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Publication number
CN100433253C
CN100433253C CN 200480005148 CN200480005148A CN100433253C CN 100433253 C CN100433253 C CN 100433253C CN 200480005148 CN200480005148 CN 200480005148 CN 200480005148 A CN200480005148 A CN 200480005148A CN 100433253 C CN100433253 C CN 100433253C
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liquid
substrate
recovery
member
supply
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CN 200480005148
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Chinese (zh)
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CN1754250A (en
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长坂博之
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株式会社尼康
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Priority to JP049365/2003 priority Critical
Priority to JP2003049365 priority
Priority to JP110748/2003 priority
Priority to JP320100/2003 priority
Application filed by 株式会社尼康 filed Critical 株式会社尼康
Priority claimed from CN201510058647.4A external-priority patent/CN104678715B/en
Publication of CN1754250A publication Critical patent/CN1754250A/en
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Publication of CN100433253C publication Critical patent/CN100433253C/en

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Abstract

曝光装置是通过使光线经过规定图案再透过一种液体投影到感光基板上来使感光基板曝光的。 The exposure device by the light rays through a predetermined pattern is then projected onto a photosensitive substrate through a liquid onto the photosensitive substrate is exposed. 曝光装置有一套用于投影的投影光学系统和用于供给液体到感光基板上从而在部分感光基板上形成液体浸入区域的液体供给机构。 Exposure means for projection set and a projection optical system for supplying the liquid onto the photosensitive substrate to form a liquid immersion area of ​​the liquid supply mechanism on a portion of a photosensitive substrate. 液体供给机构向感光基板供给液体。 Liquid supply means for supplying liquid to the photosensitive substrate. 供给的液体同时向投影区四周扩散。 Liquid supplied at the same time spread to the surrounding projection area. 曝光装置能通过回收液体很好地保持液体浸入区域,所以能阻止液体流向浸入区外面并且能很好地曝光。 Exposure means for recovering the liquid by the liquid immersion area is well maintained, it is possible to prevent the immersion liquid to the outside of the exposure area and well.

Description

曝光装置以及器件制造方法技术领域本发明涉及在投影光学系统和基板之间形成有液浸区域的状态下在基板上爆光图案的曝光装置、曝光方法以及器件制造方法。 Exposure apparatus and device TECHNICAL FIELD The present invention relates to an exposure apparatus of the state where liquid immersion area formed between the projection optical system and the substrate exposing a pattern on a substrate, an exposure method, and device manufacturing method. 背景技术半导体器件和液晶显示器件用把形成在掩模上的图案转印到感光性的基板上的所谓的光刻法的方法制造。 BACKGROUND ART Semiconductor devices and liquid crystal display device using the pattern formed on the mask is transferred to a so-called photolithography method on a photosensitive substrate manufacturing. 在该光刻法工序中使用的曝光装置具有支撑掩模的掩模载台和支撑基板的基板载台,是一边逐次移动掩模载台以及基板载台一边经由投影光学系统把掩模的图案转印到基板上的装置。 A mask stage base and the support substrate exposure apparatus used in this photolithography process has a mask supporting substrate stage, is a stage while successively moving the mask and the substrate stage via the projection optical system while the pattern of the mask transferred to the device on the substrate. 近年,为了与器件图案的进一步的高集成化对应, 希望投影光学系统的进一步的高解像度化。 In recent years, in order to further high integration of the device pattern corresponding to the desirable projection optical system of a further high resolution. 所使用的曝光波长越短, 或者投影光学系统的数值孔径越大,投影光学系统的解像度越高。 The exposure wavelength used is shorter, or the larger the numerical aperture of the projection optical system, the higher the resolution of the projection optical system. 因此,在曝光装置中使用的曝光波长一年年在短波长化,投影光学系统的数值孔径也在增大。 Therefore, the exposure wavelength used in the exposure apparatus of the short length of the year, the numerical aperture of the projection optical system also increases. 然而,现在主流曝光波长是KrF准分子激光的248nm,而更短波长的ArF准分子激光的193nm也已实用化。 However, now the mainstream exposure wavelength is 248nm KrF excimer laser, and the shorter wavelength 193nm ArF excimer laser has also been practical. 此外, 在进行曝光时,焦深(DOF)也和解像度一样重要。 Further, during the exposure, depth of focus (DOF) is also important and the same resolution. 解像度R以及焦深5分别用以下的式子表示。 R 5 resolution and depth of focus are represented by the following formula. <formula>formula see original document page 4</formula>在此,X是曝光波长,NA是投影光学系统的数值孔径,k,、 k2 是工艺系数。 <Formula> formula see original document page 4 </ formula> Here, X is the exposure wavelength, NA is the numerical aperture of the projection optical system, k ,, k2 are process coefficients. 从(1)式、(2)式可知,为了提高解像度R,如果缩短曝光波长入,增大数值孔径NA,则焦深S变窄。 From (1), (2) shows that, in order to enhance the resolution R, the wavelength shortening the exposure, the numerical aperture NA is increased, the depth of focus is narrowed S. 如果焦深S过窄,则难以相对投影光学系统的像面来匹配基板表面,曝光动作时的裕度有可能不足,因而,作为实际缩短曝光波长, 并且扩大焦深的方法,例如,提出了在国际公开第99/49504号公报中公开的液浸法。 If S is too narrow depth of focus, it is relatively difficult to image plane of the projection optical system to match the substrate surface, margin during the exposure operation may be insufficient, and thus, as a practical shorten the exposure wavelength and widening the depth of focus methods, for example, proposes the liquid immersion method is disclosed in international Publication No. 99/49504 in. 该液浸法的方法是,用水和有机溶剂等的液体充满投影光学系统的下面和基板表面之间形成液浸区域,在利用在液体中的曝光光束的波长是空气中的1/n (n是液体的折射率, 一般是1.2〜1.6 左右)这一点提高解像度的同时,把焦深扩大约n倍。 This method is immersion method, a liquid such as water and an organic solvent is filled immersion area is formed between the lower surface of the substrate and the projection optical system, using the wavelength of the exposure light beam in the liquid air is 1 / n (n is the refractive index of the liquid, generally about 1.2~1.6) this improvement in resolution at the same time, the depth of focus is magnified about n times. 可是,在上述以往技术中存在以下所述的问题。 However, the presence of the following problems in the above conventional art. 上述以往技术因为在一边向规定方向移动基板一边扫描曝光时可以在投影光学系统和基板之间形成液浸区域所以有效,而其结构是相对基板的移动方向, 在投影掩模的图案的像的投影区域跟前提供液体,液体从投影区域的跟前侧沿着基板的移动方向在单方向上流动。 Conventional techniques as described above may be formed in the liquid immersion area between the projection optical system and the substrate during the scanning exposure while moving the substrate in a predetermined direction while it is effective, and its structure is a relative moving direction of the substrate, the projected image pattern in the mask providing a liquid in front of the projection area, the liquid from the near side of the projection area of ​​the upward flow along the moving direction of the substrate acquirer. 然而也可以是这样的结构,在从上述规定方向向相反方向切换基板的移动方向时,也可以切换提供液体的位置(喷嘴)。 However, such a configuration may also be, when switching the moving direction of the substrate from a direction opposite to the predetermined direction, the position may be switched to provide liquid (nozzles). 可是已明确知道的是,因为在该切换时对投影区域迅速停止来自一方向的液体提供,开始来自另一方向的液体的提供,所以在投影光学系统和基板之间发生液体的振动(所谓的水锤现象),或者在液体供给装置自身(供给管和供给喷嘴等)间发生振动,产生引起图案像的劣化的问题,此外,因为其结构是相对投影区域从单一方向流过液体,所以还存在在投影光学系统和基板之间不能充分形成液浸区域这样的问题。 But is has been clearly known, because in the projection area stopped quickly switched from one direction to provide a liquid, begin to provide a liquid from another direction, the vibration of the liquid (so-called occur between the substrate and the projection optical system water hammer phenomenon), or occur between the liquid supply device itself (the supply pipe and the supply nozzle or the like) vibrations, a problem caused by the pattern image degradation, addition, since the structure is the projection area liquid flowing from a single direction, but also the presence of a problem can not be sufficiently formed in the liquid immersion area between the projection optical system and the substrate. 此外,在上述以往技术中,因为其结构是回收液体的回收部只在上述基板的移动方向上流动液体的下游侧回收液体,所以还产生不能充分回收液体的问题。 Further, in the above conventional art, since the structure is only recovery unit recovers the liquid recovered liquid in the liquid flow on the downstream side in the moving direction of the substrate, it is also a problem can not be sufficiently recovered liquid. 如果不能充分回收液体则在基板上残存液体, 由该残存的液体的原因引起发生曝光模糊的可能。 If the liquid is not sufficiently recovered liquid remaining on a substrate, is caused by the reason that the liquid remaining exposure blur may occur. 此外,如果不能彻底回收液体,则残存的液体飞溅到周边的机械部件上,还产生使其生锈等的异常。 Further, if not completely recovering the liquid, the remaining liquid splashed on the surrounding mechanical parts, it also produces rust abnormality. 进而,如果液体残存或者飞溅,则随着放置基板的环境(湿度等)的变化,由于引起在载台位置测量中使用的光干涉计的检测光的光路上的折射率的变化等原因,还有产生不能得到所希望的图案转印精度的危险。 Further, if the liquid remains or splashing, the substrate is placed as the environment (humidity, etc.) change, since the change in refractive index caused by optical interference optical path of the detection light of other reasons meter used in stage position measurement, it is also It has not provide a danger of a desired pattern transfer accuracy. 此外,在用液体回收喷嘴回收基板上的液体时,有可能在液体回收装置自身(回收管和回收喷嘴等)间发生振动。 Further, when the liquid recovered by the liquid recovery nozzle on the substrate, it is possible to vibrate the liquid recovery (recovery pipe and recovery nozzles, etc.) between themselves. 该振动如果传递到投影光学系统和基板载台,或者用于测量基板栽台的位置的千涉计的光学部件等上,则有可能不能在基板上高精度地形成电路图案。 If the vibration is transmitted to the projection optical system and the substrate stage, the optical member or the like for measuring a substrate planted one thousand stage interferometer position, it is not possible to accurately form a circuit pattern on the substrate. 发明内容本发明就是鉴于上述情况而提出的,其目的在于提供一种在投影光学系统和基板之间形成有液浸区域的状态下进行曝光处理时,在稳定地形成液浸区域的同时可以良好地回收该液体,防止液体向周边的流出或飞溅等可以高精度曝光处理的曝光装置、曝光方法以及器件制造方法。 The present invention is proposed in view of the above, and its object is to provide a formed between the projection optical system and the substrate during the exposure process under a state where liquid immersion area, while stably forming the liquid immersion area can be satisfactorily recovering the liquid, the exposure apparatus may be a liquid with high accuracy exposure process to the periphery of the outflow or the like splashes, exposure method and device manufacturing method prevented. 此外,本发明的目的在于提供一种在投影光学系统和基板之间形成有液浸区域的状态下曝光处理时,不受在液体的供给或者回收时产生的振动的影响,可以高精度曝光处理的曝光装置以及器件制造方法。 Further, the object of the present invention to provide a method of forming the influence of vibration during the exposure processing in a state where liquid immersion area, is not generated when supplying or recovering the liquid between the projection optical system and the substrate, the exposure processing with high precision an exposure apparatus and device manufacturing method. 为了解决上述问题,本发明采用与实施方式所示的图1~图21 对应的以下的结构。 To solve the above problems, the present invention adopts the embodiment shown in FIG. 1 to FIG. 21 embodiment corresponding to the following structure. 但是,附加在各要素上的带括号的符号只不过是该要素的示例,没有限定各要素的意图。 However, each element added to the reference numerals in parentheses are merely examples of the element is not intended to define the respective elements. 如果采用本发明的第1形态,则提供一种曝光装置(EX),它通过隔着液体(1)把规定的图案的像投影到基板(P)上曝光基板, 包括:在基板上投影上述图案的像的投影光学系统(PL);为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),从在不同的多个方向上与投影区域(AR1)隔开的多个位置上,向基板(P)上同时进行液体(1) 的供给的液体供给机构(10、 11、 12、 13、 13A、 14、 14A)。 If a first aspect of the present invention, there is provided an exposure apparatus (EX), which through a liquid (1) to a predetermined image pattern is projected onto the substrate (P) exposing a substrate, comprising: a projection on the substrate of the a projection optical system of the image pattern (PL); to a portion of the substrate (P) in the projection area (AR1) comprises a projection optical system (PL) for forming the liquid immersion area (AR2), from a plurality of different directions a liquid supply mechanism (10, 11, 12, 13, 13A, 14, 14A) and the projection area (AR1) of the plurality of spaced apart positions on the supplied liquid (1) onto the substrate (P) simultaneously. 如果采用本发明,则用于形成液浸区域的液体供给机构因为从在不同的多个方向上与投影区域隔开的位置上(即,投影区域的不同的多侧上,例如如果是矩形的投影区域则从X侧,-X侧,十Y侧、-Y侧的至少二侧区域)同时进行液体的供给,可以在投影光学系统和基板之间形成所希望的液浸区域。 According to the present invention, the means for supplying the liquid immersion area is formed as a projection region spaced from a plurality of directions in different positions (i.e., multiple different side of the projection area, for example, if a rectangular projection region from the X-side, -X side, ten Y side, at least two sides of the -Y side area) simultaneously supplying a liquid, can form the desired liquid immersion area between the projection optical system and the substrate. 此外,因为在多个方向上隔开的多个位置上同时进行液体的供给,所以在一边移动基板一边曝光处理时, 即使改变基板的移动方向也可以始终良好地形成液浸区域。 Further, since a plurality of spaced positions in a plurality of directions simultaneously supplying a liquid, so that when the exposure process while moving the substrate side, even if changing the moving direction of the substrate can be always satisfactorily form the liquid immersion area. 如杲在投影区域的两侧同时提供液体,因为不需要切换液体的供给位置,所以可以防止液体的振动(水锤)的发生,可以把图案像高精度地投影到基板上。 Gao provided as a liquid simultaneously on both sides of the projection area, it is not necessary to switch the supply position of the liquid, it is possible to prevent vibration of the liquid (water hammer) may be accurately project the pattern image onto the substrate. 如果采用本发明的第2方式,则提供通过隔着液体(1)把规定图案的像投影到基板(P)上曝光基板的曝光装置(EX),包括:在基板上投影上述图案的像的投影光学系统(PL);为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),向基板(P)上提供液体(1) 的液体供给机构(10、 11、 12、 13、 13A、 14、 14A);从在不同的多个方向上与投影区域(AR1)隔开的多个位置上同时进行基板(P)上的液体(1)的回收的液体回收机构(20、 21、 22、 22A)。 According to the second embodiment of the present invention, it is provided through a liquid (1) to a predetermined image pattern is projected onto the exposure apparatus (EX) on the substrate, exposing the substrate (P), comprising: a projection of the pattern image on the substrate a projection optical system (PL); forming a liquid immersion region (AR2 of) a portion on the substrate (P) in order to contain the projection optical system (PL) in the projection area (AR1), and providing a liquid (1) onto the substrate (P) liquid carried on the substrate (P) simultaneously from a plurality of different positions in a plurality of directions spaced apart from the projection area (AR1) on; a liquid supply mechanism (10, 11, 12, 13, 13A, 14, 14A) (1) recovering a liquid recovery mechanism (20, 21, 22, 22A). 如果采用本发明,则用于回收液体的液体回收机构因为从在不同的多个方向上与投影区域隔开的多个位置上(即,投影区域的不同的多侧,例如,如果是矩形的投影区域则是从X侧、-X侧、屮Y侧、 -Y侧的至少二侧)同时进行液体的回收,所以可以可靠地进行液体的回收。 According to the present invention, for recovering the liquid from a liquid recovery mechanism as the plurality of positions spaced apart from the projection area in a plurality of different directions (i.e., multiple different side of the projection area, for example, if a rectangular projection area is recovered from the liquid while X side, -X side, Cao Y side and -Y side of the at least two side), it is possible to reliably recover the liquid. 因而,可以防止在基板上残留液体的状态的发生,可以防止曝光模糊的发生和放置基板的环境变化,可以把图案像高精度地投影到基板上。 Accordingly, it is possible to prevent the occurrence of residual liquid state on a substrate, the exposure can be prevented and the occurrence of blurring the substrate placed environmental change, can accurately project the pattern image onto the substrate. 如果采用本发明的第3方式,则提供通过隔着液体(1)把规定图案的像投影到基板(P)上曝光基板的曝光装置(EX),包括:在基板上投影上述图案的像的投影光学系统(PL);为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),向基板(P)上提供液体(1) 的液体供给机构(10、 11、 12、 13、 13A、 14、 14A);在多个位置上同时进行基板(P)上的液体(1)的回收的液体回收才几构(20、 21、 22、 22A、 22D、 24),液体回收机构(20、 21、 22、 22A 、 22D、 24)冲艮据液体回收位置用不同的回收力回收液体。 According to the third embodiment of the present invention, there is provided an exposure apparatus (EX) (1) to a predetermined exposure pattern is projected onto the substrate as the substrate (P) through a liquid by comprising: a projection of the pattern image on the substrate a projection optical system (PL); forming a liquid immersion region (AR2 of) a portion on the substrate (P) in order to contain the projection optical system (PL) in the projection area (AR1), and providing a liquid (1) onto the substrate (P) a liquid supply mechanism (10, 11, 12, 13, 13A, 14, 14A); a liquid carried on the substrate (P) (1) simultaneously in a plurality of positions on only a few liquid recovery mechanism (20, 21 recovered, 22, 22A, 22D, 24), the liquid recovery mechanism (20, 21, 22, 22A, 22D, 24) according to Burgundy red liquid recovery position of the liquid recovery by the recovery force is different. 如果采用本发明,则在基板上的多个位置同时进行液体的回收的液体回收机构因为与液体回收位置相应以不同的回收力回收液体,所以可以平滑地进行液体回收动作。 According to the present invention, the liquid recovery mechanism that recovers the liquid simultaneously at the plurality of positions on the substrate since the respective recovery and the liquid recovery position of the liquid recovery force is different, the liquid recovery operation can be performed smoothly. 因而,可以以适宜的量的液体充满投影光学系统和基板间,可以在基板上的所希望的区域内形成液浸区域。 Accordingly, a suitable amount of liquid may be filled between the projection optical system and the substrate, the liquid immersion area can be formed in the desired region on the substrate. 例如,通过对于基板的移动(扫描)方向把前方侧(下游侧)的液体的回收力设定为比后方侧(上游侧)大,可以平滑地进行液体回收动作。 For example, a large, the liquid recovery operation can be performed than the rear side (upstream side) to smoothly by moving (scanning) direction of the substrate of the liquid recovery force of the front side (downstream side) is set. 或者,通过使沿着基板的移动(扫描)方向的位置配置的液体回收机构的液体回收力,比沿着和移动方向交叉的方向的位置配置的液体回收机构的液体回收力大,也可以平滑地进行液体回收动作。 Alternatively, the substrate along the moving (scanning) direction of the force of the liquid recovery position of the liquid recovery mechanism is arranged, larger than the liquid recovery force of the liquid recovery mechanism in a direction intersecting the moving direction and position configuration may be smooth perform the liquid recovery operation. 如果采用本发明的笫4方式,则提供通过隔着液体(1)把规定图案的像投影到基板(P)上曝光基板的曝光装置(EX),包括:在基板上投影上述图案的像的投影光学系统(PL);为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),向基板(P)上提供液体(1) 的液体供给机构(10、 11、 12、 13、 13A、 14、 14A);在从投影区域(AR1)隔开的回收位置上进行基板(P)上的液体(1)的回收的液体回收机构(20、 21、 22、 22A),相对投影区域(AR1 )被配置在液体回收机构(20, 21, 22, 22A) 的液体回收位置的外侧上,形成有捕捉液体(1)的液体收集面(31) 的收集部件(30)。 If Zi embodiment 4 of the present invention, is provided through a liquid (1) to a predetermined image pattern is projected onto the exposure apparatus (EX) on the substrate, exposing the substrate (P), comprising: a projection of the pattern image on the substrate a projection optical system (PL); forming a liquid immersion region (AR2 of) a portion on the substrate (P) in order to contain the projection optical system (PL) in the projection area (AR1), and providing a liquid (1) onto the substrate (P) a liquid supply mechanism (10, 11, 12, 13, 13A, 14, 14A); a liquid carried on the substrate (P) (1) is spaced apart from the projection area (AR1) on the recovery position of the liquid recovery mechanism recovering (20, 21, 22, 22A), the projection area (AR1) is arranged in the liquid recovery mechanism (, 21, 22, 22A 20) on the outside of the liquid recovery position, forming a capture liquid (1) a liquid trap surface (31) the collecting member (30). 如果采用本发明,则在液体回收机构的液体回收位置的外侧上, 通过设置形成有捕捉液体的规定长度的液体收集面的收集部件,即使假设液体回收机构不能彻底回收液体,通过用该收集部件捕捉液体, 也可以防止液体向周围的流出或飞溅等的异常的发生。 According to the present invention, it is on the outside of the liquid recovery position of the liquid recovery mechanism, by providing the formed capturing member liquid collecting surface of the liquid a predetermined length, even if the liquid recovery mechanism could not recover all of the liquid through the collecting member with capture liquid can be prevented occurrence of an abnormality to the liquid effluent or the like is splashed around. 因而,可以防止配置有基板的环境的变化的发生,可以以所希望的图案精度把图案像投影到基板上。 Thus, the configuration can be prevented with a changed environment of the substrate, it may be desired pattern accuracy pattern image projected onto the substrate. 如果釆用本发明的第5方式,则提供通过把规定的图案的像隔着液体(1)投影到基板(P)上曝光基板的曝光装置(EX):包括:把上述图案的像投影到基板上的投影光学系统(PL);200480005148.9说明书第6/49页为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),向基板(P)上提供液体(1) 的液体供给机构(10, 11, 12, 13, 13A, 14, 14A);在从投影区域(AR1)隔开的回收位置上进行基板(P)上的液体(1)的回收的液体回收机构(20, 21, 22, 22A),通过液体供给机构(10、 11、 12、 13、 13A、 14、 14A)进4亍的液体(1)的供给在液体回收机构(20、 21、 22、 22A)的液体回收位置和投影区域(AR1)之间进行。 If preclude the use of a fifth embodiment of the present invention, the exposure apparatus (EX) through the predetermined image pattern through a liquid (1) onto an exposure substrate (P) of the substrate is provided: comprising: the image of the pattern projected onto a projection optical system onto the substrate (PL); formed on the substrate to the projection area (AR1) comprises a projection optical system (PL) on the part (P) on page 6/49 200480005148.9 specification liquid immersion area (AR2), the providing a liquid (1) liquid supply means (10, 11, 12, 13, 13A, 14, 14A) on the substrate (P); for the substrate (P) spaced apart from the projection area (AR1) on the recovery position It recovered liquid (1) liquid recovery mechanism (20, 21, 22, 22A), through the liquid supply mechanism (10, 11, 12, 13, 13A, 14, 14A) into the 4 right foot liquid (1) is supplied the liquid recovery mechanism (20, 21, 22, 22A) for the liquid between the projection area and a recovery position (AR1). 如果采用本发明,则因为液体提供机构进行的液体的提供在液体回收机构的液体回收位置和投影区域之间进行,所以在把液体平滑地提供给投影区域的同时,可以把已提供的液体从基板上平滑地回收。 According to the present invention, since the liquid provides a mechanism providing a liquid is between the projection area and the liquid recovery position of the liquid recovery mechanism, so while the liquid smoothly supplied to the projection area can be provided from the liquid recovering the substrate smoothly. 如果采用第6方式,则提供通过隔着液体(1)把规定图案的像投影到基板(P)上曝光基板的曝光方法,包括:为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),提供和投影光学系统(PL)的前端的液体接触面(2a)的亲和性比和基板(P)表面的亲和性还高的液体(1);经由提供给上述液浸区域(AR2)的液体(1)把规定图案的像投影到基板(P)上。 If the sixth embodiment, is provided through a liquid (1) projecting an image of the predetermined pattern onto the substrate (P) exposed substrate exposure method, comprising: for containing the projection area of ​​the projection optical system (PL) is (AR1) forming a liquid immersion area (AR2 of) a portion of the substrate (P), and to provide a projection optical system (PL) of the liquid contact surface (2a) and the front end of the substrate affinity ratio (P) of the further surface affinity high liquid (1); through the liquid supplied to the liquid immersion area (AR2 of) (1) projecting an image of the predetermined pattern onto the substrate (P). 如果采用本发明,则可以使液体与投影光学系统的前端的液体接触面密实接触,在可以把投影光学系统和基板之间的光路设置成稳定的液浸状态的同时,可以平滑地回收基板上的液体。 According to the present invention, it is possible to make the liquid and the projection optical system of a liquid contact surface of the distal end of the dense contact the can light path between the projection optical system and the substrate is provided a stable liquid immersion state at the same time, it can be smoothly recovered on a substrate liquid. 本发明的器件制造方法其特征在于:使用上述形态的曝光装置(EX)或者曝光方法。 Device manufacturing method of the present invention is characterized in that: the exposure apparatus using the above-described aspect (EX) or the exposure method. 如果采用本发明则具有以良好的图案精度形成的图案,可以提供能够发挥所希望的性能的器件。 If the present invention has a pattern formed with good pattern accuracy can be provided can exhibit a desired device performance. 如果采用本发明的第7方式,则提供隔着液体(1)把规定图案的像投影到基板(P)上曝光基板的曝光装置(EX):在基板上投影上述图案的像的投影光学系统(PL);具有向基板(P)上提供液体(1)的供给流路(94A, 95A, 94B,95B)的液体供给机构(10, 11, 12, 41, 42);具有回收所提供的液体的回收流路(96A, 97A, 98A, 99A, 96B, 97B, 98B, 99B, 96T, 97T, 98T, 99T)的液体回收才几构(20, 61, 62, 63, 64, 71, 72, 73, 74),上述供给流路以及回收流路的至少一方被形成在叠层了多块板状部件(91, 92, 93)的叠层部件上。 If the seventh embodiment of the present invention is to provide a liquid (1) the predetermined pattern is projected to the exposure image exposure apparatus (EX) on the substrate (P) substrate: a projection optical system which projects the image of the pattern on the substrate (PL); with providing a liquid onto the substrate (P) (1) a supply flow passage (94A, 95A, 94B, 95B) of the liquid supply mechanism (10, 11, 12, 41, 42); having recovered provided recovery flow channel for the liquid (96A, 97A, 98A, 99A, 96B, 97B, 98B, 99B, 96T, 97T, 98T, 99T) of the liquid recovery only a few mechanism (20, 61, 62, 63, 64, 71, 72 , 73, 74), the supply passage and at least one of the recovery flow passage is formed on a plurality of laminated plate-shaped member (91, 92, 93) of the laminated member. 在液浸曝光期间,需要把均匀的液体流提供给液浸区域并且需要从那里回收,而本发明的曝光装置具备的叠层部件通过把分别形成有流路的多块板状部件如这些流路连通分别形成供给流路以及回收流路的至少一方那样叠层形成。 During the liquid immersion exposure, it is necessary to provide a uniform flow of liquid to the liquid immersion area and from there to be recovered, and the exposure apparatus according to the present invention includes a laminated member formed by plate-like member has a plurality of such streams flow path each communicating passage is formed feed passage and at least one of the recovery flow passage is formed as a laminate. 因而,即使是复杂的流路构造,也可以极其紧凑、容易、并且低成本地形成。 Accordingly, even if the passage structure is complicated, it can be extremely compact, easily, and inexpensively formed. 如果采用本发明的第8方式,则提供通过隔着液体(1)把规定的图案像投影到基板(P)上曝光基板的曝光装置(EX):包括:把上述图案的像投影到基板上的投影光学系统(PL);为了在包含投影光学系统(PL)的投影区域(AR1)的基板(P) 上的一部分上形成液浸区域(AR2),向基板(P)上提供液体(1) 的液体供给机构(10),液体供给机构(10)和投影光学系统(PL)在振动性上彼此隔离。 According to the eighth embodiment of the present invention, is provided through a liquid (1) to a predetermined pattern by projecting an image of the substrate (P) on the substrate exposure apparatus (EX): comprising: the image of the pattern projected onto the substrate projection optical system (PL); for the substrate portion of the upper (P) of the projection area (AR1) comprises a projection optical system (PL) is formed liquid immersion area (AR2), providing a liquid (1 onto the substrate (P) ) of the liquid supply mechanism (10), liquid supply means (10) and the projection optical system (PL) separated from each other in terms of the vibration. 如杲采用根据第8方式的曝光装置,则把投影光学系统和液体供给机构在振动性上彼此隔离。 The exposure device 8 uses Gao embodiment according to put the projection optical system and the liquid supply means separated from each other in the oscillation. 即,即使在液体供给机构中发生振动, 该振动也不会传递到投影光学系统。 That is, even if vibration occurs in the liquid supply mechanism, the vibration is not transmitted to the projection optical system. 因而,可以防止由于投影光学系统振动导致图案像劣化的异常的发生,可以把图案像高精度地投影到基板上。 Accordingly, the projection optical system can be prevented occurrence of an abnormality due to vibration pattern image degradation, can be accurately project the pattern image onto the substrate. 曝光装置进一步包括:支撑光学系统(PL )的第1支撑部件(100 ); 和第1支撑部件(100)在振动性上彼此隔离,支撑液体供给机构(IO) 的第2支撑部件(102)。 The exposure apparatus further comprising: a first support member (100) supporting the optical system (PL); and a first support member (100) isolated from the vibration of each other, the second support member (102) supporting the liquid supply mechanism (IO) of . 如果采用该结构,则因为支撑投影光学系统的第1支撑部件,和支撑液体供给机构的第2支撑部件分离振动,所以在液体供给机构中发生的振动不会传递到投影光学系统。 With the above construction, since the second support member of the first supporting member supporting the projection optical system, the liquid supply mechanism and a support separating the vibration, the vibration occurs in the liquid supply mechanism is not transmitted to the projection optical system. 此外,例如通过设置成把用于测量基板栽台的位置信息的干涉计安装在第1支撑部件上,把参照镜(固定镜)安装在投影光学系统的镜筒上等的结构,因为不向这些干涉计和参照镜传递振动,所以可以高精度地进行基板载台的位置信息的测量和基于该测量结果的位置控制。 Further, for example, provided by the interferometer for measuring the position information of the substrate stage planted attached to the first support member 1, the reference mirror (fixed mirror) is mounted in the upper structure of the lens barrel of the projection optical system, because it is not the the interferometer reference mirror and the transmission of vibration, it can be measured and the position control based on the measurement result of the position information of the substrate stage with high accuracy. 如果采用本发明的第9方案,则提供隔着液体(1)把规定图案的像投影到基板(P)上曝光基板的曝光装置(EX):把上述图案的像投影到基板上的投影光学系统(PL);回收提供给包含投影光学系统(PL)的投影区域(AR1)的基板(P)上的一部分的液体(1)的液体回收机构(20),液体回收机构20和投影光学系统(PL)在振动性上彼此隔离。 If the ninth embodiment of the present invention is to provide a liquid (1) the predetermined pattern is projected to the exposure image exposure apparatus (EX) on the substrate (P) substrate: The projected image of the pattern onto the substrate to a projection optical system (PL); recovering part of the substrate of the liquid on the (P) (1) of the liquid recovery mechanism (20) to the projection area comprises a projection optical system (PL) is (AR1), and 20 and the projection optical system of the liquid recovery mechanism (PL) in terms of vibration from each other. 如果采用本发明的第9方式的曝光装置,则因为投影光学系统和液体回收机构在振动性上彼此隔离,所以即使在液体回收机构中发生振动,该振动也不会传递到投影光学系统。 If the exposure apparatus of the ninth embodiment of the present invention, since the projection optical system and the liquid recovery mechanism Oscillation isolated from each other, so that even if vibration occurs in the liquid recovery mechanism, the vibration is not transmitted to the projection optical system. 因而,可以防止因投影光学系统振幅导致图案像劣化的异常的发生,可以高精度地把图案的像投影到基板上。 Accordingly, the projection optical system can be prevented the occurrence of amplitude cause abnormal pattern image degradation, can be accurately projected image of the pattern onto the substrate. 笫9方式的曝光装置(EX)可以进一步包括:支撑投影光学系统(PL)的第l支撑部件(100);和第1支撑部件(100)在振动性上彼此隔离,支撑液体回收机构(20)的第2支撑部件(102)。 The exposure apparatus (EX) Zi 9 embodiment may further comprise: a first l support member (100) supports the projection optical system (PL); and a first support member (100) separated from each other in terms of vibration, support the liquid recovery mechanism (20 ) of the second support member (102). 如果采用该结构,因为支撑投影光学系统的第1支撑部件,和支撑液体回收机构的第2支撑部件被在振动性上彼此隔离,所以在液体回收机构上发生的振动不会传递到投影光学系统。 According to this structure, since the first support member supporting the projection optical system, and a second support member for supporting the liquid recovery mechanism are isolated from each other in terms of vibration, the vibration occurring on the liquid recovery mechanism is not transmitted to the projection optical system . 此外,例如通过设置成把用于测量基板载台的位置信息的干涉计安装在第l支撑部件上,把参照镜筒(固定镜)安装在投影光学系统的镜筒上等的结构,因为不会向这些干涉计和参照镜传递振动,所以可以高精度地进行基板载台的位置信息的测量和基于该测量结果的位置控制。 Further, for example, provided by the interferometer for measuring the position information of the substrate stage is mounted on the l meter support member, with reference to the lens barrel (fixed mirror) is mounted in the upper structure of the lens barrel of the projection optical system, since no these vibrations are passed to the interferometer and the reference mirror, the position can be measured and controlled based on the measurement result of the position information of the substrate stage with high accuracy. 如果采用本发明的笫IO方式,则提供把规定图案的像隔着液体(1)投影到基板(P)上,顺序曝光该基板上的多个拍摄区域的曝光装置(EX):包括:把上述图案的像投影到上述基板上的投影光学系统(PL);ii为了在包含该投影光学系统的投影区域的基板上的一部分上形成液浸区域,从配置成和上述基板相对的供给口(13A, 14A)提供液体的液体供给机构(10, 11, 12, 13, 14),该液体供给机构在进行上述基板上的多个拍摄区域的曝光处理期间从上述供给口连续提供液体。 If Zi IO embodiment of the present invention, provides an image of a predetermined pattern through a liquid (1) onto the substrate (P), the exposure order of exposure apparatus (EX) of the plurality of shot areas on the substrate: comprises of: of the pattern image projected onto the projection optical system (PL) on the substrate; ii to a portion of the substrate projection area including the projection optical system for forming the liquid immersion area, the arranged and the substrate opposite to the supply port ( 13A, 14A) providing a liquid in the liquid supply mechanism (10, 11, 12, 13, 14), which is performed from the liquid supply means to provide a continuous liquid supply port during the exposure process the plurality of shot areas on the substrate. 如果采用本发明的第IO方式的曝光装置,则在进行基板上的多个拍摄区域的曝光处理期间,因为不按照基板的移动方向,而是从被配置在规定位置上的供给口连续提供液体,所以可以防止液体供给机构自身的振动和液体的振动(水锤现象),可以高精度地把图案像投影到基板上。 If IO embodiment of the present invention is an exposure apparatus, an exposure process during the plurality of shot areas on a substrate is performed, because it is not in accordance with the moving direction of the substrate, but to provide a liquid is disposed at a predetermined position from the continuous supply port , it is possible to prevent the vibration of the liquid supply mechanism itself and the vibration of the liquid (water hammer phenomenon), the pattern can be accurately projected image onto the substrate. 如果采用本发明的第11方式,则提供把规定图案的像隔着液体(1)投影到基板(P)上,顺序曝光该基板上的多个拍摄区域的曝光装置(EX)把上述图案的像投影到上述基板上的投影光学系统(PL);为了在包含该投影光学系统的投影区域的基板上的一部分上形成液浸区域,从配置在规定位置上的供给口(13A, 14A)提供液体的液体供给才几构(10, 11, 12, 13, 14),具有蜂皮配置成和上述基板相对的回收口(22A),回收从上述液体供给机构提供的液体的液体回收机构(20, 21, 22),该液体供给机构在进行上述基板上的多个拍摄区域的曝光处理期间从上述供给口连续回收液体。 If the eleventh embodiment of the present invention, provides an image of a predetermined pattern through a liquid (1) onto the substrate (P), the exposure order of exposure apparatus (EX) of the plurality of shot areas on the substrate to the pattern of the image projected onto the projection optical system (PL) on the substrate; to a portion of the substrate projection area including the projection optical system for forming the liquid immersion area, supplied from the disposed at a predetermined position on the supply port (13A, 14A) liquid supply liquid only a few mechanism (10, 11, 12, 13, 14), having bee sheath arranged and the substrate relative recovery port (. 22A), recovering the liquid supplied from the liquid supply means of the liquid recovery mechanism (20 , 21, 22), carrying out the liquid supply mechanism continuously recovering from the liquid supply port during the exposure process the plurality of shot areas on a substrate. 如果采用本发明的第11方式的曝光装置,则在进行基板上的多个拍摄区域的曝光处理期间,不按照基板的移动方向,而是从回收口连续回收液体。 If during the exposure apparatus 11 uses the first embodiment of the present invention, exposure processing a plurality of shot areas on a substrate is performed, not in accordance with the moving direction of the substrate, but continuously recovered from the liquid recovery port. 由此,在可以更可靠地回收液体的同时,可以抑制随着回收开始和停止的液体回收机构自身的振动,可以高精度地把图案像投影到基板上。 Thus, at the same time can be more reliably recovered liquid can be suppressed as recovered starting and stopping the vibration of the liquid recovery mechanism itself, can be accurately projected image of the pattern onto the substrate. 本发明的器件制造方法的特征在于使用上述形态的曝光装置(EX)。 The method for manufacturing device features of the present invention is an exposure apparatus (EX) using the above-described morphology. 如果采用本发明,则可以提供具有以良好的图案精度形成的图案,可以发挥所希望性能的器件。 According to the present invention, it is possible to provide a pattern formed with good pattern accuracy, and can play the desired device performance. 如果采用本发明,则即使在投影光学系统和基板之间形成了液浸区域的状态下曝光处理时也可以高精度地曝光处理。 High accuracy exposure process may be employed if the present invention, even in between the projection optical system and an exposure substrate is formed of a treatment state where liquid immersion area. 附图说明图l是展示本发明的曝光装置的一种实施方式的概略构成图。 BRIEF DESCRIPTION OF DRAWINGS Figure l is a schematic configuration diagram showing an embodiment of an exposure apparatus according to the present invention. 图2是展示作为本发明的特征部分的液体供给机构以及液体回收机构的概略构成的平面图。 FIG 2 is a schematic plan view showing a characteristic portion of the liquid supply mechanism according to the present invention and the configuration of the liquid recovery mechanism. 图3是展示作为本发明的特征部分的液体供给机构以及液体回收机构的概略构成的斜视图。 FIG 3 is a perspective view showing a schematic configuration of a characteristic portion of the liquid supply mechanism of the present invention and a liquid recovery mechanism. 图4是展示作为本发明的特征部分的液体供给机构以及液体回收才几构的概略构成的侧断面图。 Figure 4 is a characteristic portion of the liquid supply mechanism and the liquid recovery according to the present invention, only a few side sectional view showing a schematic configuration of a configuration. 图5是展示被设置在基板上的拍摄区域的图。 FIG 5 is a diagram showing the photographing region is disposed on the substrate. 图6 (a)以及(b)是展示液体行迹的模式图。 FIG 6 (a) and (b) is a schematic view showing a liquid line trace. 图7是展示液体供给机构以及液体回收机构的另一实施方式的图。 FIG 7 is a view showing another embodiment of the liquid supply mechanism and a liquid recovery mechanism. 图8是展示液体供给机构以及液体回收机构的另一实施方式的图。 FIG 8 is a view showing another embodiment of the liquid supply mechanism and a liquid recovery mechanism. 图9是展示液体供给机构以及液体回收机构的另一实施方式的图。 9 is a diagram showing another embodiment of the liquid supply mechanism and a liquid recovery mechanism. 图10 (a)以及(b)是展示液体供给机构的另一实施方式的图。 FIG. 10 (a) and (b) is a view showing another embodiment of the liquid supply mechanism. 图ll是展示收集部件的另一实施方式的侧断面图。 Fig ll is a side cross-sectional view showing another embodiment of the collection member. 图12是展示收集部件的另一实施方式的侧断面图。 FIG 12 is a side cross-sectional view showing another embodiment of the collection member. 图13是展示收集部件的另一实施方式的斜视图。 FIG 13 is a perspective view showing another embodiment of the collection member. 图14是展示本发明的液体供给机构以及液体回收机构的另一实施方式的概略斜碎见图。 FIG 14 shows a liquid supply mechanism of the present invention and Figure broken schematic perspective another embodiment of the liquid recovery mechanism. 图15是展示图14中的缝隙管部的另一实施方式的图。 FIG 15 is a view of another embodiment of a slit tube section showing in FIG. 14. 图16是展示本发明的液体供给机构以及液体回收机构的另一实施方式的概略斜视图。 FIG 16 is a schematic perspective view of another embodiment of the present invention showing the liquid supply mechanism and a liquid recovery mechanism. 图17是展示在流路形成部件中展示第l部件的斜视图。 FIG 17 is a perspective view showing a flow passage member is shown in the l-forming member. 图18 ")以及(b)是在流路形成部件中展示笫2部件的斜视图。图19 (a)以及(b)是在流路形成部件中展示第3部件的斜视图。图20是展示本发明的曝光装置的另一实施方式的概略构成图。 图21是展示半导体器件的制造工序的一例的流程图。具体实施方式以下,参照附图说明本发明的曝光装置。图l是展示本发明的曝光装置的一实施方式的概略构成图。在图l中,曝光装置EX包括: 支撑掩模M的掩模载台MST;支撑基板P的基板载台PST;用曝光光束EL照明被掩模载台MST支撑的掩模M的照明光学系统IL;把用曝光光束EL照明的掩模M的图案像投影曝光在被基板载台PST 支撑的基板P上的投影光学系统PL;总控制曝光装置EX的整体动作的控制装置CONT。此外,本实施方式的曝光装置EX是在实际上缩短曝光波长提高解像度的同时,为了实际扩大焦深而适用液浸法的液浸曝光装置,包括:向基 FIG. 18 ") and (b) is a perspective view of the components is shown in Zi 2 member of FIG. 19 (a) and (b) is a perspective view of the components is shown in the third member forming a flow path formed in the flow path. FIG. 20 is shows a schematic configuration diagram of an exposure apparatus according to another embodiment of the present invention embodiment. FIG. 21 is a flowchart showing an example of a manufacturing process of a semiconductor device showing DETAILED DESCRIPTION the following describes an exposure apparatus according to the present invention with reference to FIG. l be displayed . a schematic configuration view showing one embodiment of the present invention is an exposure apparatus in Figure l, the exposure apparatus EX comprises: a mask stage MST supports the mask M; substrate P supported the PST substrate stage; illuminated with the exposure light EL is a mask stage illumination optical system IL MST supports the mask M; the exposure light EL the mask M illuminated with the exposure pattern image projected on the board substrate stage PST supporting the substrate P to the projection optical system PL; total control the control unit CONT overall operation of the exposure apparatus EX Further, the exposure apparatus EX of the present embodiment is actually shortening the exposure wavelength to improve resolution while effectively broadening the depth of focus for the liquid immersion method applied liquid immersion exposure apparatus, comprising: to base P上提供液体1的液体供给机构10;回收基板P上的液体1的液体回收机构20。曝光装置EX至少在把掩模M的图案像转印到基板P上期间,用从液体供给机构10提供的液体1在包含投影光学系统PL的投影区域AR1的基板P的一部分上形成液浸区域AR2。具体地说,曝光装置EX在投影光学系统PL的前端部分的光学元件2 和基板P的表面之间充满液体1,经由该投影光学系统PL和基板P 间的液体1以及投影光学系统PL,把掩模M的图案像投影到基板P 上,曝光基板P。在此,在本实施方式中,作为曝光装置EX使用在扫描方向中的相互不同的方向(反方向)上同步移动掩模M和基板P,同时把被形成在掩模M上的图案曝光在基板P上的扫描型曝光装置(所谓扫描步进曝光装置)的情况为例子说明。在以下的说明中,把和投影光学系统PL的光轴AX—致的方向作为Z轴方向,在与Z轴方向垂直的平面内 Providing a liquid in the liquid supply mechanism 10 on P; liquid recovery mechanism for recovering the liquid 1 on the substrate P 20. The exposure apparatus EX, at least in the pattern of the mask M is transferred onto the image during substrate P, and a liquid supply mechanism 10 from a portion of the projection area AR1 of the substrate 1 provided in the liquid containing P of the projection optical system PL is formed liquid immersion area AR2 on. specifically, the exposure apparatus EX of the optical element surface in the front end portion of the projection optical system PL and the substrate P 2 1 is filled between the liquid via the liquid 1 between the projection optical system PL and the projection optical system PL and the substrate P, and the pattern image of the mask M is projected onto the substrate P, and the exposure of the substrate P. here, in the present embodiment, synchronous mobile on the mask M and the substrate P, the exposure apparatus EX is used as a scanning direction in mutually different directions (opposite directions), it is simultaneously formed on the pattern of the mask M on the substrate P exposed in the scanning type exposure apparatus case (so-called scanning stepper exposure device) as an example will be described. in the following description, the direction and the optical axis of the projection optical system PL as AX- actuation Z-axis direction, within the plane perpendicular to the Z-axis direction 把掩模M和基板P的同步移动方向(扫描方向)设置为X轴方向,把与Z轴方向以及Y轴方向垂直的方向(非扫描方向)设置为Y轴方向。此外,把围绕x轴、Y轴以及z轴的方向分别设置为ex,0Y, GZ方向。进而,这里所说的"基板,,包含在半导体晶片上涂布了作为感光性材料的光刻胶的基板,"掩模,,包含形成有缩小投影到基板上的器件图案的掩模原版。照明光学系统IL是用曝光光束EL照明被掩模载台MST支撑的掩模M的系统,包括:曝光用光源、均匀化从曝光用光源射出的光束的照度的光学积分仪、聚光来自光学积分仪的曝光光束EL的聚光透镜、中继透镜、把采用曝光光束EL的掩模M上的照明区域设定为缝隙状的可变视野光圏等。 The synchronous movement direction of the mask M and the substrate P (scanning direction) set as an X-axis direction, perpendicular to the Z-axis direction and the Y axis direction (non-scanning direction) set as a Y-axis direction. Further, around the x-axis , Y-axis and z-axis directions were set to ex, 0Y, GZ direction. Further, where the term "substrate ,, comprising a substrate coated with a photoresist as a photosensitive material on a semiconductor wafer," mask ,, reduction projection formed comprising a reticle to a device pattern on the substrate by the illumination optical system IL is the mask stage MST supports the mask M with the exposure light EL illumination system, comprising: an exposure light source, uniform illumination light beam emitted from the exposure light source of the optical integrator, a condensing lens condensing the exposure light beam EL from the optical integrator, a relay lens, the illumination area on the mask M using exposure light beam EL is set to slot rings of light shaped like a variable field. 掩模M上的规定的照明区域用照明光学系统IL以均匀的照度分布的曝光光束EL照明。 Predetermined illumination area on the mask M with the illumination optical system IL uniform illuminance distribution of the exposure light beam EL illumination. 作为从照明光学系统IL 射出的曝光光束EL ,例如使用从水银灯射出的紫外区域的亮线(g线, h线,i线)以及KrF准分子激光(波长248nm)等的远紫外光(DUV 光),和ArF准分子激光光束(波长193nm )以及F2激光(波长157nm ) 等的真空紫外光(VUV光)等。 As the exposure light beam EL emitted from the illumination optical system IL, for example, a bright line (g-ray, h-ray, i-ray) in the ultraviolet region emitted from a mercury lamp and KrF excimer laser (wavelength of 248 nm) or the like far ultraviolet (DUV light ), and ArF excimer laser beam (wavelength 193 nm) and the F2 laser beam (wavelength 157 nm), and other vacuum ultraviolet (VUV light) and the like. 在本实施方式中使用ArF准分子激光光束。 ArF excimer laser beam in the present embodiment. 掩模载台MST是支撑掩模M的载台,可以在与投影光学系统PL的光轴AX垂直的平面内,即在XY平面内可以2维移动以及可以在ez方向上微小转动。 A mask stage MST supports the mask stage M may be in a plane with the optical axis AX of projection optical system PL vertical, i.e., 2-dimensional movement and can be rotated in fine ez direction in the XY plane. 掩模载台MST由线性电机等的掩模载台驱动装置MSTD驱动。 Apparatus MSTD mask stage MST is driven by mask stage driving linear motor or the like. 掩模载台驱动装置MSTD由控制装置CONT控制。 A mask stage-driving unit MSTD is controlled by the control unit CONT. 在掩^f莫载台MST上设置移动镜50。 Movable mirror 50 is provided on the mask ^ f Mo stage MST. 此外,在与移动镜50相对的位置上设置激光干涉计51。 Further, laser interferometer 51 is provided at a position opposed to the movement mirror 50 on. 掩模载台MST上的掩模M的2维方向的位置以及旋转角用激光干涉计51实时测量,测量结果被输出到控制装置CONT。 The mask stage two-dimensional direction of the mask stage MST M on the position and rotation angle of the interferometer 51 in real time with a laser measurement, measurement results are outputted to the control unit CONT. 控制装置CONT通过根据激光干涉计51的测量结果驱动掩模栽台驱动装置MSTD,确定被支撑在掩模载台MST上的掩模M的位置。 The control unit CONT drive apparatus MSTD by the laser interferometer measurement result of the meter 51 drives the mask stage plant, determines the position of the mask M supported on the mask stage MST. 投影光学系统PL是以规定的投影倍率P在基板P上投影曝光掩模M的图案的系统,用包含被设置在基板P侧的前端部分上的光学元件(透镜)2的多个光学元件构成,这些光学元件用镜筒PK支撑。 The projection optical system PL is based on a predetermined projection magnification P of the projection system exposing the pattern on the mask M substrate P, and constituted by (a lens) a plurality of optical elements including an optical element is provided on the front end portion of the P side of the substrate 2 these optical elements supported by the barrel PK. 在本实施方式中,投影光学系统PL是投影频率P例如是1/4或者1/5 的缩小系统。 In the present embodiment, the projection optical system PL is a reduction projection system, for example, a frequency P 1/4 or 1/5. 进而,投影光学系统PL也可以是等倍系统以及放大系统之一。 Further, the projection optical system PL may also be one of the 1x magnification system and the magnifying system. 此外,本实施方式的投影光学系统PL的前端部分的光学元件2被设置成相对镜筒PK可以装拆(更换),液浸区域AR2的液体l与光学元件2接触。 Further, the front end portion of the optical element of projection optical system PL of the present embodiment 2 is disposed opposite the barrel PK may be detachably (exchangeably), the second contact liquid immersion area AR2 of the liquid and the optical element l. 光学元件2用荣石形成。 The optical element 2 is formed with a wing stone. 萤石因为和水的亲和性高,所以可以使液体l与光学元件2的液体接触面2a的大致整个面密实接触,即,在本实施方式中因为提供和光学元件2的液体接触面2a的亲和性高的液体(水)1,所以光学元件2的液体接触面2a和液体l的密实性高, 可以用液体1可靠充满光学元件2和基板P之间的光路。 Since fluorite and high affinity to water, the liquid can be l substantially the entire surface of the optical element and the liquid contact surface 2a of the dense contacts, i.e., in the present embodiment, since the optical element and provide the liquid contact surface 2a 2 the high affinity of liquid (water) 1, so that the compactness of the liquid contact surface 2a of optical element 2 and the liquid high-l, 1 can be reliably filled with a liquid optical path between optical element 2 and the substrate P. 进而,光学元件2也可以是和水的亲和性高的石英。 Further, the optical element 2 may be a high affinity for water and quartz. 此外也可以对光学元件2的液体接触面2a实施亲水化(亲液化)处理,进一步提高和液体1的亲和性。 Further embodiments may 2a hydrophilic (lyophilic) treatment of the liquid contact surface of the optical element 2 to further enhance the affinity and the liquid 1. 基板载台PST是支撑基板P的载台,包括:经由基板架保持基板P的Z载台52;支撑Z载台52的XY载台53;支撑XY载台53 的基座54。 A substrate stage PST supporting the substrate P stage, comprising: a substrate holder holding the substrate P via the Z stage 52; supporting the Z stage 52 in the XY stage 53; XY stage 53 of the support base 54. 基板载台PST由线性电机等的基板载台驱动装置PSTD 驱动。 The substrate stage PST by the group of the linear motor or the like driving the substrate stage drive apparatus PSTD. 基板载台驱动装置PSTD被控制装置CONT控制。 The substrate stage drive apparatus PSTD is controlled to the control unit CONT. 通过驱动Z 载台52,控制被Z载台52保持的基板P的在Z轴方向上的位置(聚焦位置)以及在ex, 9Y方向上的位置。 By driving the Z stage 52, Z stage position control to maintain position (focus position) and in ex, 9Y direction 52 of the substrate P in the Z axis direction. 此外,通过驱动XY载台53, 控制在基板P的XY方向上的位置(与投影光学系统PL的像面实际平行方向的位置)。 Further, by driving the XY stage 53, the control position (a position parallel to the actual direction of the image plane of the projection optical system PL) in the XY directions of the substrate P. 即,Z载台52控制基板P的聚焦位置以及倾斜角, 以自聚焦方式以及自动找水平方式(auto-leveling)使基板P的表面与投影光学系统PL的像面匹配,XY载台53进行在基板P的X轴方向以及Y轴方向上的定位。 That is, Z stage 52 controls the substrate P, the focus position and the inclination angle, a self-focusing manner and automatically find the horizontal mode (auto-leveling) so that the image surface of the substrate P and the surface of the projection optical system PL match, XY stage 53 positioned in the X-axis direction of the substrate P and the Y-axis direction. 进而,当然也可以一体地设置Z载台和XY载台。 Further, of course, may be provided integrally with the Z stage and the XY stage. 在基板载台PST (Z载台52)上,和基板载台PST—同设置相对投影光学系统PL移动的移动镜55。 In the substrate stage PST (Z stage 52), and is provided with the substrate stage PST- projection optical system PL relative movement mirror 55. 此外,在与移动镜55相对的位置上设置激光干涉计56。 Further, laser interferometer 56 is provided at a position opposed to the movement mirror 55 on. 基板载台PST上的基板P的2维方向的位置以及旋转角用激光干涉计65实时测量,测量结果被输出到控制装置CONT。 Dimensional direction of the substrate 2 on the substrate stage PST P position and the rotation angle of the laser interferometer 65 in real time with the result of the measurement is outputted to the control unit CONT. 控制装置CONT通过根据激光干涉计56的测量结果驱动基板载台驱动装置PSTD进行被支撑在基板载台PST上的基板P的定位。 56 measurement control unit CONT drives the substrate stage drive apparatus PSTD positioning the substrate P supported on the substrate stage PST by the laser gauge interferometer.

此外,在基板载台PST (Z载台52)上,如包围基板P那样设置辅助板57。 Further, the substrate stage PST (Z stage 52), so as to surround the substrate P auxiliary plate 57 is provided. 辅助板57具有和被保持在基板架上的基板P的表面大致同样高度的平面。 Auxiliary plate 57 has a planar surface and is held by the substrate holder of the substrate P is substantially the same height. 在此,在基板P的边缘和辅助板57之间有0.1〜2mm左右的间隙,而因液体l的表面张力的作用几乎不会发生液体1流入该缝隙的情况,即使在曝光基板P的边缘附近的情况下,也可以用辅助板57在投影光学系统PL的下面保持液体1 。 Here, between the edges of the substrate P and the auxiliary plate 57 with a gap of about 0.1~2mm, but due to the surface tension of the liquid 1 l of a liquid flowing into the gap hardly occurs, even at the edge of the exposure of the substrate P the vicinity of, the liquid 1 can be maintained at or below the projection optical system PL and auxiliary plate 57.

液体供给机构io是在基板P上提供规定的液体1的机构,包括: 可以供给液体1的第1液体供给部11以及第2液体供给部12;具有经由具有流路的供给管11A与第1液体供给部11连接,把从该第1 液体供给部11送出的液体1提供给基板P的供给口13A的第l供给部件13;具有经由具有流路的供给管12A与笫2液体供给部12连接, 把从该第2液体供给部12送出的液体1提供给基板P的供给口14A 的第2供给部件14。 The liquid supply mechanism io provide a predetermined substrate P means the liquid 1, comprising: can feed the first liquid supply portion liquid 1 11 and the second liquid supply unit 12; having a via a supply pipe 11A having a flow passage with a first the l-supplying member of the liquid supply portion 11 is connected, to provide from the first liquid supply portion 11 fed the liquid 1 to the substrate P and the supply port 13A, 13; having via the supply pipe 12A and Zi second liquid supplying portion having a flow passage 12 connection, the fed from the second liquid supply unit 12 1 is supplied to the second liquid supply means 14A of the supply port P of the substrate 14. 第1、第2供给部件13、 14被接近配置在基板P的表面上,在基板P的面方向上设置在相互不同的位置上。 First and second supply members 13, 14 are disposed close to the upper surface of the substrate P in the plane direction of the substrate P is disposed in mutually different positions. 具体地说,液体供给机构10的第1供给部件13相对投影区域AR1设置在扫描方向一侧(-X侧)上,第2供给部件14被设置在另一侧(+X 侧)上。 Specifically, the first supply member 13 relative to the projection area AR1 of the liquid supply mechanism 10 is disposed on one side of the scanning direction (-X side), the second supply member 14 is provided on the other side (+ X side).

第1、第2液体供给部件11、 12的各自具备收容液体1的罐以及加压泵等,经由供给管11A、 12A以及供给部件13、 14的各自向基板P上提供液体1。 The first and second liquid supply member 11, 12 are each provided with a liquid accommodating tank and the pressurizing pump 1 and the like, 13, each providing a liquid 1 onto the substrate P via the supply tubes 11A, 12A and the supply member 14. 此外,第1、第2液体供给部11、 12的液体供给动作由控制装置CONT控制,控制装置CONT可以分别独立控制由第1 、 第2液体供给部11、 12对基板P上的每单位时间的液体供给量。 Further, the first and second liquid supply unit 11, liquid supply operation 12 by the control unit CONT, the control unit CONT may each independently control the time from the first, each unit on the second liquid supply portions 11, 12 to the substrate P liquid supply amount.

在本实施方式中,液体l使用纯水。 In the present embodiment, the liquid l pure water. 纯水并不只是可以透过ArF 准分子激光,例如也可以使从水银灯射出的紫外区域的亮线(g线,h线,i线)以及KrF准分子激光(波长248nm )等的紫外光(DUV光)透过。 Not just water permeable ArF excimer laser, for example, may cause the bright line ultraviolet region emitted from a mercury lamp (g-ray, h-ray, i-ray) and a KrF excimer laser (wavelength of 248 nm) ultraviolet light and the like ( DUV light) transmission.

液体回收机构20是回收基板P上的液体1的机构,包括:具有与基板P的表面接近配置的回收口22A的回收部件22;经由具有流路的回收管21A与该回收部件22连接的液体回收部21。 The liquid recovery mechanism 20 is recovering means the liquid 1 on the substrate P, and comprising: a recovery member 22. 22A having disposed close to the surface of the substrate P recovery port; a liquid connected via a recovery tube 21A having a flow passage of the recovery member 22 recovery unit 21. 液体回收部21例如具备真空泵等的吸引装置以及收容回收的液体l的罐等,基板P上的液体1经由回收部件22以及回收管21A回收。 The liquid recovery unit 21 includes a vacuum pump and a suction device l accommodating the recovered liquid tank, etc., the liquid on the substrate P 1 22 and recovered via the recovery tube 21A recovery member. 液体回收部21 的液体回收动作用控制装置CONT控制,控制装置CONT可以控制由液体回收部21进行的每单位时间的液体回收量。 The liquid recovery portion 21 of the liquid recovery operation by the control unit CONT, the control unit CONT may control the liquid recovery amount per unit time by the liquid recovery unit 21.

此外,在液体回收机构20的回收部件22的外侧上,配置形成有捕捉液体1的规定长度的液体收集面31的收集部件30。 Further, on the outside of the recovery member 20 of the liquid recovery mechanism 22 is disposed member 30 is formed with a capturing surface of the liquid collecting a predetermined length of the liquid 31.

图2是展示液体供给机构10以及液体回收机构20的概略构成的平面图,图3是局部剖开展示的斜视图。 FIG 2 is a schematic plan view showing the liquid supply mechanism 10 and the liquid recovery mechanism 20 constituted, FIG. 3 is a partially cut-away perspective view shown. 如图2所示,投影光学系统PL的投影区域AR1被设定成把Y轴方向(非扫描方向)作成为长度方向的矩形形状,充满液体1的液浸区域AR2如包含投影区域AR1 那样被形成在基板P上的一部分上。 As shown, the projection area AR1 of the projection optical system PL is set to 2 to the Y-axis direction (non-scanning direction) as the longitudinal direction of a rectangular shape, filled with the liquid immersion area AR2 of the liquid 1 as comprising the projection area AR1 is as a portion formed on the substrate P. 而后,用于形成投影区域AR1 的液浸区域AR2的液体供给机构10的第1供给部件13被相对投影区域AR1设置在扫描方向一侧(-X侧)上,第2供给部件14被设置在另一侧(+乂侧)上。 Then, the first supply member for forming the liquid immersion area AR2 of the projection area AR1 of the liquid supply mechanism 10, 13 is disposed opposite the projection area AR1 in the scanning direction side (-X side), the second supply member 14 is provided on the other side (+ side qe).

如图2以及图3所示,第1、第2供给部件13、 14分别包括使从第1、笫2液体供给部件11、 12送出的液体1流通的内部空间(内部流路)13H、 14H;把流通在内部空间13H、 14H的液体l提供给基板P上的供给口13A、 14A。 And FIG. 2, the first 13, the second supplying members 13, 14 respectively include the first, Zi liquid supply member 11, the inner space 12 flows out of the liquid 1 (internal flow passage) from the 13H, 14H ; the flow in the inner space 13H, l 14H liquid supplied to the supply port onto the substrate P 13A, 14A. 进而,虽然在图3中第2液体供给部12未图示,但构造和第1液体供给部11 一样。 Further, although the second liquid supply portion 12 is not shown in FIG. 3, but the same structure and the first liquid supply portion 11. 笫1、第2供给部件13、 14 的供给口13A、14A被分别形成为平面看大致圆弧形状,该供给口13A、 14A的Y方向上的尺寸被设定成至少比投影区域AR1的Y轴方向上的尺寸大。 Zi 1, the second feeding member 13, the supply port 13A 14, 14A are respectively formed in a substantially arc shape in plan view, the size in the Y direction of the supply ports 13A, 14A is set than at least the projection area AR1 in the Y large size in the axial direction. 而后,被形成在平面看大致圆弧状的供给口13A、 14A被配置成相对扫描方向(X方向)夹着投影区域AR1。 Then, look at the supply port is formed in a substantially arc-shaped plane 13A, 14A are arranged relative to the scanning direction (X direction) to sandwich the projection area AR1. 液体供给机构10 由供给口13A、 14A,从相对投影区域AR1在不同的多个方向上隔开的多个位置上,即,从矩形的投影区域AR1的不同侧(在该例子中, 是投影区域AR1的两侧(+X方向侧,-X方向侧))同时提供液体1。 Liquid supply mechanism 10 by the supply ports 13A, 14A, from a plurality of spaced apart positions relative to the projection area AR1 in a plurality of different directions, i.e., from different sides of the rectangular projection area AR1 (in this example, projection area AR1 on both sides (+ X direction side, -X direction side)) 1 while providing a liquid.

液体回收机构20的回收部件22是双重环状部件,包括如向着基板P的表面那样被形成为环状连续的回收口22A;使从回收口22A回收的液体1流通的环状的内部空间(内部流路)22H。 Recovering the liquid recovery mechanism 20 of member 22 is a double annular member toward the surface of the substrate P include, for example is formed as an annular continuous recovery port 22A; inner space of the annular flow from the recovered liquid recovery port 22A 1 ( internal flow passage) 22H. 液体回收机构20的回收部件22被配置成包围液体供给机构10的供给部件13、 14 以及投影区域AR1。 Recovery member 20 of the liquid recovery mechanism 22 is configured to supply the liquid supply mechanism 10 surrounds the member 13, 14 and the projection area AR1. 而后,在回收部件22的内部以规定间隔设置把其内部空间22H在圆周方向上分割为许多空间(分割空间)24的隔板部件23。 Then, in the interior of the recovery member 22 arranged at predetermined intervals in the internal space 22H into a number of spaces (divided spaces) 24 in the spacer member 23 in the circumferential direction. 即,设置成如包围投影区域AR1那样在连续形成的回收口22A的内部设置隔断部件23的结构。 That is, the structure 23 is arranged as the shielding member is provided in the recovery port 22A formed continuously to surround the projection area, such as AR1. 用隔断部件23分割的分割空间24的各自在上下方向上贯通。 23 through each division space divided by the partition member 24 in the vertical direction. 而后,回收部件22中具有回收口22A 的下端部分与基板P的表面接近,另一方面,上端部分是空间上聚合多个分割空间24的作为聚合空间部的岐管部25。 Then, the recovery member 22 having the recovery port 22A of the lower end portion of the surface of the substrate P close, on the other hand, the upper end portion of the polymerization is as spatially plurality of division spaces manifold portion 25 space portion 24 of the polymerization. 而后,在该岐管部25上连接回收管21A的一端部分,另一端与液体回收部21连接。 Then, the upper portion 25 connected to the manifold at one end portion of the recovery tube 21A, and the other end connected to the liquid recovery portion 21. 液体回收机构20通过驱动液体回收部21,经由回收口22A (回收部件22)以及回收管21A回收基板P上的液体1。 By the liquid recovery mechanism 20 drives the liquid recovery section 21 via the recovery port 22A (recovery member 22) and the recovery tube 21A recovering the liquid on the substrate P 1. 即,回收口22A的设置位置是进行基板P上的液体1的回收的回收位置,液体回收机构20 在从投影区域AR1隔开的回收位置上进行基板P上的液体1的回收。 That is, the installation position of the recovery port 22A is the recovery position for recovering the liquid 1 on the substrate P, the liquid recovery mechanism 20 recovers the liquid 1 on the substrate P is spaced from the projection area AR1 on the recovery position. 在此,液体回收机构20的回收口22A是平面看大致圆环状包围投影区域AR1的结构。 In this case, the liquid recovery mechanism 20 of the recovery port 22A is a plan view, a substantially annular structure surrounding the projection area AR1. 即,回收口22A存在于矩形的投影区域AR1的4 侧(+X方向侧,-X方向侧,+丫方向侧,-Y方向侧),换句话说,在相对投影区域AR1正交的4个方向上隔开的4个位置上。 That is, the recovery port 22A exists on the four sides of the rectangular projection area AR1 (+ X direction side, -X direction side, Ah + side direction, -Y direction side), in other words, perpendicular to the AR1 projection area 4 the directions spaced four positions. 因而, 液体回收机构20用被设置成包围投影区域AR1的回收口22A,可以在相对投影区域AR1不同的许多方向上隔开的位置上同时进行基板P 上的液体1的回收。 Accordingly, the liquid recovery mechanism 20 is arranged to surround the projection area AR1 of the recovery port 22A, recovering the liquid 1 on the substrate P while many directions spaced in the projection area AR1 in different positions.

而后,液体供给机构10的第1、第2供给部件13、 14各自的供给口13A、 14A的设置位置,即相对基板P上的液体1的供给位置的结构是被设置在液体回收位置(回收口22A的位置)和投影区域AR1之间。 Then, the liquid supply mechanism 10 of the first and second supply members 13, 14 each supply opening position 13A, 14A, i.e., the structure of supply position on the substrate P is liquid 1 is provided in the liquid recovery position (recovery opening position 22A) and between the projection area AR1. 即,由液体供给机构10进行的液体1的供给在液体回收机构20的液体回收位置和投影区域AR1之间进行。 That is, the liquid 1 supplied by the liquid supply mechanism 10 between the liquid recovery position of the projection area AR1 and the liquid recovery mechanism 20.

图4是展示与基板P接近配置的笫1、第2供给部件13、 14以及回收部件22的主要部分放大侧断面图。 FIG 4 is a sleeping mat 1, showing the second member and the substrate P is supplied disposed close to 13, a main portion 14 and the recovery member 22 is an enlarged side sectional view. 如图4所示,液体供给机构10的第1、第2供给部件13、 14各自的内部流路13H、 14H被设置成相对基板P的表面大致垂直。 As shown, the first liquid supply mechanism, the second supplying members 13, 14 of each of the internal flow path 13H, 14H is provided to the surface of the substrate P is substantially perpendicular 410. 同样,液体回收机构20的回收部件22 的内部流路22H (分割空间24 )也被设置成相对基板P的表面大致垂直。 Similarly, the recovery internal flow path member 20 of the liquid recovery mechanism 22 is 22H (divided space 24) is also arranged opposite a surface of the substrate P is substantially perpendicular. 而后,由第1、第2供给部件13、 14进行的对基板P的液体1的供给位置(供给口13A、 14A的设定位置)被设定在液体回收机构20 的液体回收位置(回收口22A的设置位置)和投影区域AR1之间。 Then, by the first and second supply members 13 and 14 is supplied to the position (feed port. 13A, 14A of the setting position) liquid substrate P is set to 1 in the liquid recovery position of the liquid recovery mechanism 20 (recovery port 22A between the installation position) and the projection area AR1. 此外,在投影光学系统PL和第1、第2供给部件13、 14各自在^f皮配置成隔开规定距离的同时,回收部件22和第1、第2供给部件13、 14 的各自都被设置成只隔开规定距离。 Further, in the projection optical system PL and the first and second supply members 13, 14 are each disposed in spaced transdermal ^ f a predetermined distance while the recovery member 22 and the first and second supply members 13, 14 are each set apart only by a predetermined distance. 此外,在本实施方式中,基板P 的表面和供给口13A、 14A的距离、基板P的表面和回收口22A的距离,基板P的表面和投影光学系统PL的下端面的距离被设置成大致相同。 In the present embodiment, the substrate P and the surface of the supply port. 13A, distance 14A, the surface of the substrate P and the recovery port 22A, the distance of the lower end surface of the surface of the substrate P and the projection optical system PL is arranged to substantially the same. 换句话说,供给口13A、 14A、回收口22A以及投影光学系统PL的下端面各自的Z轴方向上的位置(高度)被设置成大致相同。 In other words, the supply port 13A, 14A, the recovery port 22A and the end surface of the projection optical system PL position (height) of each of the Z-axis direction is set to substantially the same.

而后,在相对基板面大致垂直的方向上从第1、第2供给部件13、 14的供给口13A、 14A向基板P提供的液体1被提供成在投影光学系统PL的前端部分(光学元件2)的下端面和基板P之间渍湿扩散。 Then, on the opposite substrate surface substantially perpendicular to a direction from the first and second supply member 13, the supply port 13A 14, the liquid 14A provided to the substrate P 1 is supplied to a front end portion (optical element 2 of the projection optical system PL ) stains wet the substrate and between the lower end face of the P diffusion. 此外,相对投影区域AR1流出到供给部件13、 14的外侧的液体1, 用相对投影区域AR1被配置在该供给部件13、 14外侧的回收部件2 的回收口22A,从基板面在大致垂直方向上被回收(吸收)。 Furthermore, the projection area AR1 flows into the supply member 13, the liquid outside 14 1, with respect to the projection area AR1 is disposed 22A, the substrate surface substantially perpendicular to a direction in the recovery member outside of the recovery port 2 of the supply member 13, 14 the recovered (absorbed).

在此,构成液体供给机构10以及液体回收机构20的各部件中至少液体1流通的部件例如用聚四氟乙烯等的合成树脂形成。 In this case, each component constituting member 10 and the liquid recovery mechanism 20 in at least one liquid flowing through the liquid supply mechanism is formed, for example, a synthetic resin such as polytetrafluoroethylene. 由此,可以抑制在液体1中包含杂质。 This can suppress the impurities contained in the liquid 1.

在液体回收机构20的回收部件22中相对投影区域AR1的外侧上,设置形成有捕捉用液体回收机构20的回收部件22不能彻底回收的液体1的长度的液体收集面31的收集部件30。 Recovery member 20 on the outer side 22 opposite the projection area AR1 in the liquid recovery mechanism is provided is formed with a capture liquid can not be completely recovered by the recovery member 20 of the liquid recovery mechanism 22 of the liquid collecting surface length of trap member 30 1 31. 收集部件30被 Collecting member 30 is

20设置在回收部件22的外侧面上。 20 provided on the outer surface of the recovery member 22. 回收面31在回收部件30中是向基板P侧的面(即下面),如图4所示,相对水平面倾斜。 Surface 31 is recovered in the recovery member 30 to the P side of the substrate surface (i.e., below), shown in Figure 4, relative to the horizontal plane. 具体地说,收集面31随着相对投影区域AR1 (液浸区域AR2)朝向外侧,如相对基板P的表面隔开(向上)那样倾斜。 Specifically, the trap surface 31 with respect to the projection area AR1 (liquid immersion area AR2) towards the outside, such as the surface of the substrate P spaced (upwardly) as inclined. 收集部件30例如用不锈钢等的金属形成。 Collecting member 30 is formed, for example, a metal such as stainless steel.

如图2所示,收集部件30是平面看环状部件,如与回收部件22 嵌合那样与回收部件22的外侧面连接。 2, the collecting member 30 is a ring-shaped member in plan view, an outer side surface of the fitting 22 as the recovery member and the recovery member 22 is connected. 而后,收集部件30的收集面31被配置成包围投影区域AR1 (液浸区域AR2),本实施方式中的液浸部件30以及其下面的收集面31为平面看大致椭圆形状。 Then, 30 of the collecting member collecting surface 31 is arranged to surround the projection area AR1 (liquid immersion area AR2 of), the liquid immersion member 30 of the present embodiment described below as well as the collection surface 31 a substantially elliptical shape look flat. 即,收集部件30的收集面31以投影光学系统PL的光轴AX为基准,设置成放射方向的长度与其位置相应而不同。 I.e. the length of its position, the collection surface of the collection member 31 of the optical axis AX of the projection optical system PL as a reference, set to different respective radial direction. 在本实施方式中,在扫描方向(X轴方向)中的收集面31的长度相对非扫描方向(Y轴方向)长。 In the present embodiment, the length of the trap surface 31 in the scanning direction (X axis direction) relative to the non-scanning direction (Y axis direction) length. 更具体地说,在与投影区域AR1的Y轴方向中央部分对应的位置上的收集面31的长度最长。 More specifically, the length of the collecting surface 31 in a position corresponding to the Y-axis direction of the projection area AR1 on the central portion of the longest.

在收集面31上实施提高和液体1的亲和性的亲液化处理(亲水化处理)。 Embodiments improve on the collection surface and the liquid affinity of 31 1 lyophilic treatment (hydrophilic treatment). 在本实施方式中,因为液体l是水,所以对收集面31实施适合于和水的亲和性的表面处理。 In the present embodiment, since the liquid is l of water, so water and embodiment suitable for surface treatment of the affinity of the trap surface 31. 进而,在基板P的表面上涂布防水性(接触角70~80°左右)的ArF准分子激光用的感光材料(例如, 东京应化工业林式会社产TARF-P6100),收集面31相对液体1的液体亲和性比基板P的表面相对液体1的液体亲和性还高。 Further, on the surface of the substrate P is coated with water-repellent photosensitive material (contact angle of about 70 ~ 80 °) with the ArF excimer laser (e.g., Tokyo Ohka Co. Lin formula will yield TARF-P6100), the trap surface 31 opposite affinity for the liquid 1 of the liquid relative to the liquid surface of the substrate 1 than the P liquid higher affinity.

对收集面31的表面处理与液体1的极性相应地进行。 Polar surface treated with a liquid trap surface 31 1 accordingly. 因为本实施方式中的液体1是极性大的水,所以作为对收集面31的亲水化处理, 例如通过用醇等极性大的分子构造的物质形成薄膜,对该收集面31 赋予亲水性。 Since the liquid 1 of the present embodiment is water having large polarity, hydrophilic treatment so as to trap surface 31, for example by forming a thin film material with a large polar molecules such as alcohol configuration, the trap surface 31 to impart the pro water. 或者,对于收集面31,例如也可以通过使用氧气(02) 作为处理气体实施等离子处理的02等离子处理赋予亲水性。 Alternatively, the plasma 02 for the trap surface 31, for example, may be carried out by treatment using an oxygen gas (02) as the plasma treatment process to impart hydrophilicity. 这样,当作为液体l使用水的情况下,希望在收集面31上配置具有OH基等极性大的分子构造的表面的处理。 Thus, in the case where water is used as the liquid L, having a desired surface configuration process large polar molecules such as OH group is configured on the collection surface 31. 在此,用于表面处理的薄膜相对液体1用非溶解性的材料形成。 Here, for the relative liquid surface treated film formed of a non-soluble material. 此外,亲液化处理根据所使用的液体1的材料特性可以适宜变更其处理条件。 Further, depending on the material characteristics of the lyophilic processing liquid used can be appropriately changed its 1 treatment conditions. 以下,说明使用上述的曝光装置EX在基板P上曝光掩模M的图案像的方法。 Hereinafter, using the above-described method of image exposure apparatus EX of the exposure mask M pattern on the substrate P.

在此,在本实施方式中的曝光装置EX是一边使掩模M和基板P 在X轴方向(扫描方向)上移动一边把掩模M的图案像投影曝光在基板P上的装置,在扫描曝光时,在投影光学系统PL的前端部分之下的矩形状的投影区域AR1上投影掩模M的一部分的图案像,对于投影光学系统PL,与掩模M在-X方向(或者+ X方向)上以速度V移动同步,经由XY载台53基板P在+ X方向(或者-X方向)上以速度PV (P是投影倍率)移动。 Here, in the exposure apparatus EX of the present embodiment is described while the mask M and the substrate P while moving the mask M pattern image projection device on the substrate P exposed in the X axis direction (scanning direction), the scanning exposure, on a rectangular projection area AR1 under the tip portion of the projection optical system PL projects the image of the pattern portion of the mask M, the projection optical system PL, with the mask M in the -X direction (or + X direction a) moving at a speed V sync, via the XY stage 53 of the substrate P in the + X direction (or -X direction) at a speed of the PV (P is the projection magnification). 而后,如图5的平面图所示,在基板P上设定多个拍摄区域S1〜S12,在对1个拍摄区域的曝光结束后, 通过基板P的步进移动,下一拍摄区域移动到扫描开始位置,以下, 一边用步进式扫描方式使基板P移动一边顺序进行对各拍摄区域的扫描曝光处理。 Then, as shown in Figure 5 a plan view, the plurality of imaging regions S1~S12 set on the substrate P, after the exposure of one shot region, the stepping movement of substrate P, the next shot region moves to the scanning by start position, hereinafter, stepping scanning manner while the substrate P while moving sequentially scanning exposure process of each shot region. 进而,在本实施方式中,控制装置CONT假设如投影光学系统PL的光轴AX沿着图5的虚线箭头58前进那样监视激光干涉计56的输出同时移动XY载台53。 Further, in the present embodiment, the control unit CONT is assumed as an optical axis AX of projection optical system PL as monitoring the laser proceeds along the dotted arrow 58 in FIG. 5 of the interferometer 56 outputs a count XY stage 53 while moving.

首先,在掩模M被放置在掩模载台MST上的同时,基板P被放置在基板载台PST上(参照图1),以下,在进行扫描曝光处理时, 控制装置CONT驱动液体供给机构10,开始对基板P上进行液体的供给动作。 First, while the mask M is placed on the mask stage MST and the substrate P is placed in the apparatus CONT drives the liquid supply mechanism on the substrate stage PST (see FIG. 1), or less, during the scanning exposure process, the control 10, starts the supply operation of the liquid on the substrate P. 为了形成液浸区域AR2,从液体供给机构IO的第1、第2 液体供给部ll、 12各自提供的液体1在通过供给管IIA、 12A后,经由第1、第2供给部件13、 14提供给基板P上,在投影光学系统PL 和基板P之间形成液浸区域AR2。 In order to form the liquid immersion area AR2 of, from the first, the second liquid supply section ll of the liquid supply mechanism IO, the liquid 12 are each provided 1 through the supply pipe IIA, after. 12A, provided via the first and second supply members 13, 14 to the substrate P, and forms the liquid immersion area AR2 between the projection optical system PL and the substrate P. 在此,如图4所示,流过供给管IIA、 12A的液体l在供给部件13、 14的内部流路13H、 14H的宽度方向上扩散,由供给口13A、 14A向基板P上的宽的范围提供。 Here, 4, flowing through the supply pipe IIA, l 12A of the liquid diffusion in the internal flow passage 13H supplying means 13, 14, the width direction is 14H, the width of the supply port 13A, 14A onto the substrate P the offer range. 此时,供给口13A、 14A被配置在投影区域AR1的X轴方向(扫描方向)两侧, 控制装置CONT由液体供给机构10的供给口13A、 14A从投影区域AR1的两侧向基板P上同时进行液体1的供给。 In this case, the supply port 13A, 14A are arranged on both sides of the projection area AR1 in the X axis direction (scanning direction), the control unit CONT by the liquid supply means of the supply port 13A 10, 14A from the both sides of the projection area AR1 on the substrate P supplying the liquid 1 simultaneously.

液体供给机构10由被设置在投影区域AR1的两侧上的供给口13A、 14A,即从在相对投影区域AR1不同的多个方向(+X方向,-X方向)上隔开的多个位置同时提供液体。 Liquid supply mechanism 10 from the supply port 13A is provided on both sides of the projection area AR1, 14A, i.e. in opposite directions from a plurality of different projection area AR1 (+ X direction, -X direction) of the plurality of positions spaced while providing liquid. 由此,从供给口13A、 14A提供给基板P上的液体1以至少比投影区域AR1宽的范围形成液浸区域AR2。 Thus, from the supply port 13A, 14A provided to the liquid on the substrate P 1 is wider than at least the projection area AR1 formed in the range of the liquid immersion area AR2.

在本实施方式中,在从投影区域AR1的扫描方向两侧对基板P 提供液体1时,控制装置CONT控制液体供给机构10的第1、第2 液体供给部ll、 12的液体供给动作,相对于扫描方向,把从投影区域AR1的跟前提供的每单位时间的液体供给量设定成比在其相反侧提供的液体供给量还多。 In the present embodiment, when the substrate P is provided on both sides of the liquid 1 from the scanning direction of the projection area AR1, the control unit CONT controls the liquid supply mechanism, the second liquid supply section ll 10 and 12 of the liquid supply operation, the relative to the scanning direction, the liquid supply amount per unit time from the front of the projection area AR1 is set to provide more than the supply amount of the liquid provided on the opposite side. 例如,当一边使基板P在+X方向上扫描一边曝光处理的情况下,控制装置CONT相对投影区域AR1使来自-X侧(即供给口13A)的液体量比来自屮X侧(即供给口14A)的液体量还多,另一方面,当一边使基板P在-X方向移动一边曝光处理的情况下,对投影区域AR1使来自+乂侧的液体量比来自-X侧的液体量多。 For example, while in the case where the substrate P in the + X direction side of the scanning exposure process, the control unit CONT relative ratio of the projection area AR1 of the liquid from the -X side (i.e., the supply port 13A) from Che X side (i.e., the supply port 14A) more than the amount of liquid, on the other hand, while a case where while moving the substrate P in the -X direction, the exposure process, so that the projection area AR1 from the liquid + qe side than the liquid amount from the -X side of the multi- .

此外,控制装置CONT驱动液体回收机构20,并行进行液体供给机构10的液体1的供给动作,进行基板P上的液体回收动作。 Further, the control unit CONT drives the liquid recovery mechanism 20, parallel operation of the liquid supply mechanism 10 supplying the liquid 1, the liquid recovery operation performed on the substrate P. 由此,如图4所示,从供给口13A、 14A对投影区域AR1流到外侧的基板P上的液体1用回收口22A回收。 Accordingly, as shown in FIG. 4, from the supply port 13A, 14A flows to the liquid 1 recovered by the recovery port 22A on the outside of the substrate P to the projection area AR1. 从回收口22A回收的液体1在由隔断部件23隔开的分割空间24的各自中流通后,聚集在岐管部25 中。 Recovered from the liquid recovery port 22A is a flow after each of the spaced partition member 23 divided space 24, gather in the manifold portion 25. 聚集在岐管部25中的液体1通过回收管21A^皮液体回收部21回收。 Accumulated in the liquid manifold portion 25 of the recovery tube 21A ^ 1 by the liquid recovery section 21 sheath recovered. 这样在本实施方式中,具备相对1个液体回收部21连接多个分割空间24的构造。 Thus in the present embodiment, the structure includes a relatively liquid recovery section 21 is connected to the plurality of divided spaces 24. 而后,液体回收机构20由被设置成包围投影区域AR1 的回收口22A,从相对投影区域AR1在不同的多个方向上隔开的多个位置上,即,从矩形的投影区域AR1的4侧(屮X方向侧,-X方向侧,十Y方向侧,-Y方向侧)同时进行基板P上的液体的回收。 Then, by the liquid recovery mechanism 20 is arranged to surround the projection area AR1 of the recovery port 22A, from a plurality of spaced apart positions relative to the projection area AR1 in the plurality of different directions, i.e., from 4 side of the rectangular projection area AR1 (Cao X direction side, -X direction side, ten sides in the Y direction, -Y direction side) while recovering the liquid on the substrate P.

控制装置CONT由液体供给机构10以及液体回收机构20并行进行对基板P的表面的液体1的供给和基板P上的液体1的回收,同时一边使支撑基板P的基板载台PST在X轴方向(扫描方向)移动, 一边经由投影光学系统PL和基板P之间的液体1以及投影光学系统PL把掩模M的图案像投影曝光在基板P上。 The control unit CONT recovering the liquid on the liquid surface of the substrate P is supplied and the substrate P 1 is 1 by the liquid supply mechanism 10 and 20 parallel the liquid recovery mechanism, while the side of the supporting substrate P, the substrate stage PST X axis direction (scanning direction) while moving through the liquid between the projection optical system PL and the substrate P 1 and the projection optical system PL projects the image of the mask M is exposed in a pattern on the substrate P. 此时,因为液体供给机构10相对于扫描方向从投影区域AR1的两侧通过供给口13A、 14A 同时进行液体1的供给,所以可以均匀并且良好地形成液浸区域AR2 。 In this case, since the liquid supply mechanism 10 with respect to the scanning direction from both sides of the projection area AR1 through the supply ports 13A, 14A for supplying the liquid 1 simultaneously, it may be uniformly and satisfactorily form the liquid immersion area AR2. 此外,液体回收机构20因为经由包围投影区域AR1的回收部件22的回收口22A在包含投影区域AR1的扫描方向两侧的投影区域AR1周围的多个位置上同时进行液体1的回收,所以防止了液体1对基板P 的周围的流出或飞'减。 Further, because the liquid recovery mechanism 20 via the recovery member surrounds the projection area AR1 of the recovery port 22A of the liquid 1 recovered at a plurality of locations simultaneously around the area comprising the projection area AR1 in the scanning direction of the projection on both sides of AR1, is prevented around the liquid 1 to the substrate P effluent or fly 'Save. 进而,在本实施方式中,因为把和基板P表面的感光材料的亲和性低的纯水作为液体1供给,所以可以平滑地由液体回收机构20进行回收。 Further, in the present embodiment, since the supply of pure water and a low affinity for the photosensitive material of the substrate P as the liquid surface 1, it can be smoothly recovered by the liquid recovery mechanism 20.

图6 (a)是展示一边在+ X方向上移动基板P —边曝光处理被设定在基板P上的笫l拍摄区域(例如图5的Sl, S3等)时的液体l 的行迹的模式图。 FIG 6 (a) be displayed while moving in the + X direction of the substrate P - Traces of liquid l during the edge exposure processing is set on the substrate P Zi l photographing region (e.g. 5 Sl FIG, S3, etc.) mode Fig. 在图6(a)中,对于投影光学系统PL和基板P之间的空间从供给口13A、 14A同时提供液体l,由此如包含投影区域AR1那样形成液浸区域AR12。 In FIG. 6 (a), for the space between the projection optical system PL and the substrate P from the supply ports 13A, 14A at the same time providing a liquid l, whereby as above comprising forming the liquid immersion area AR12 projection area AR1. 在此,从相对投影区域AR1被设置在-X侧上的供给口13A提供的液体l的每单位时间的液体量因为被设定成比从被设置在+ X侧的供给口14A提供的液体l的每单位时间的液体量多,所以从供给口13A提供的液体l牵引到向+X方向移动的基板P,平滑地配置在投影光学系统PL和基板P之间的空间。 The liquid amount per unit time in this case, from the projection area AR1 is disposed on the -X side of the supply port 13A provided as the liquid l + ratio is set to be the liquid supply port 14A X side are set to provide from the liquid amount per unit time of a multi-l, l in traction from the liquid supply port 13A provided to the + X direction movement substrate P, and smoothly arranged in the space between the projection optical system PL and the substrate P. 此外, 要从供给口13A、 14A流向外侧的液体l用回收口22A回收,抑制流向基板P周围的异常的发生。 Further, from the supply ports 13A, 14A flows to the outside by the liquid recovery l recovery port 22A to suppress the occurrence of abnormal flow around the substrate P.

在此,由于基板P向十X方向移动,因而相对投影区域AR1向+ X侧移动的液体量增加,存在在+ X侧上设置了液体回收位置的回收口22A不能完全回收液体l的情况。 Here, since the substrate P moves in the + X direction, thus relatively + the amount of the projection area AR1 in the X-side movement of the liquid increases, there is provided 22A situation can not recover the liquid completely l recovery port of the liquid recovery position on the + X side. 可是,如图6(a)所示,在+ X侧的回收口22A上不能彻底回收的液体l因为从该液体回收位置用被设置在+ X侧上的收集部件30的收集面31捕捉,所以不会流出或者分散到基板P的周围等上。 However, in FIG. 6 (a) shown in FIG. 22A in the + X side recovery port can not be completely recovered by the liquid is provided as l collected on the + X side member from the liquid recovery position of the trap surface 30 of the capture 31, it does not flow or dispersed around the substrate P and so on. 在此,收集面31相对液体1被进行亲液处理,而且因为具有比基板P的表面高的液体亲和性,所以从回收口22A的液体回收位置要流到外侧的液体1未被基板P —侧牵引,而被收集面31 —侧牵引。 In this case, the trap surface 31 opposing the liquid 1 is subjected to lyophilic treatment, and since having a high specific surface of the substrate P is liquid affinity, so the recovery port 22A of the liquid recovery position of the liquid 1 flows to the outside of the substrate P is not - traction side, the trap surface 31 is - side traction. 由此,抑制在基板P上残存液体1等的异常的发生。 Thus, inhibition of occurrence of an abnormality such as the liquid 1 remaining on the substrate P. 在此,因为收集面31把包含投影区域AR1的液浸区域AR2作为基准随着向外侧方向而向上方向倾斜,所以可以进一步有效地防止液体l向外部流出。 Here, since the surface 31 comprising collecting the liquid immersion area AR2 of the projection area AR1 as a reference with outwardly upwardly inclined direction, it is possible to further effectively prevent the liquid from flowing out to the outside l. 即,通过向上方向倾斜,对于基板P和投影光学系统PL之间的第l体积(与基板P的单位面积对应的体积),因为基板P和收集面31间的第2体积一方大,所以要流出的液体l被平滑地保持在第2体积部分。 That is, the upward direction is inclined to the l volume (volume per unit area of ​​the substrate corresponding to P), as between the substrate P and the projection optical system PL of the second one of the large volume of the substrate P and the 31 collecting surface, so l is the liquid flowing out smoothly held in the second volume portion. 此外,由于向上方倾斜,因而由于要流出到外侧的流体能量沿着收集面31向上方向移动被变换为势能,因而可以有效地防止液体1向外侧的流出。 Further, since the inclined upward, and thus due to flow out to the outside of the moving fluid energy is converted into potential energy, thereby effectively preventing the outflow of the liquid 1 to the outside along the collecting surface 31 in an upward direction.

此外,从被设置在+ X侧上的供给口14A提供的液体量被设定成相对从被设置在-X侧上的供给口13A提供的液体量少。 Further, the amount of liquid to be supplied at the + X side disposed a supply port 14A is set to a relatively small amount of the liquid supplied from the supply port 13A is provided on the -X side. 即,因为被设定成相对+ X侧的回收口22A在来自比供给口13A近的位置上的供给口14A的液体供给量少,所以即使液体l被牵引到向+乂侧移动的基板P,也可以抑制要从基板P的+乂侧流出到外部的液体量。 That is, because the set to a relatively + X side recovery port 22A from the liquid supply less than the supply port 14A at the position near the supply port 13A, even if the liquid is drawn into the + l qe side moving substrate P + qe the amount of liquid flowing to the outside from the side of the substrate P can be suppressed.

如果第1拍摄区域的曝光处理结束,则控制装置CONT为了把投影光学系统PL的投影区域AR1配置在和上述第1拍摄区域不同的第2拍摄区域上,步进移动基板P。 If the exposure process of the first shot region is completed, the control unit CONT to the projection area AR1 of the projection optical system PL is arranged on the second imaging region and the imaging region different from the first, the stepping movement of the substrate P. 具体地说,例如在相对拍摄区域Sl的扫描曝光处理结束后,为了对拍摄区域S2进行扫描曝光处理, 控制装置CONT在基板P上的2个拍摄区域Sl、 S2间在Y轴方向上步进移动。 Specifically, for example after the imaging region opposite Sl scanning exposure process for the shot area S2 scanning exposure process, the control apparatus CONT 2 at a plurality of captured Sl regions on the substrate P, between step S2 in the Y-axis direction mobile. 此时,液体供给机构10使在基板P上的2个拍摄区域间的步进移动期间的液体1的供给量相对在拍摄区域的曝光期间的供给量不同。 A liquid supply amount of stepping movement between during this time, the liquid supply mechanism 10 on the substrate P so that the two imaging regions relative supply amount during the exposure shot areas differ. 具体地说,控制装置CONT使从在步进移动期间的液体供给机构对基板P上的每单位时间的液体供给量,比拍摄区域的扫描曝光期间的液体供给量少。 Specifically, the control unit CONT makes the liquid supply amount per unit time onto the substrate P in the liquid supply mechanism during the stepping movement, the liquid supplied during the scanning exposure of the shot area ratio less. 由此,抑制在不进行曝光处理的步进移动期间的基板P的液体供给量,可以抑制在曝光处理全体(把基板P搭栽在基板载台PST上,对全部拍摄区域S1-S12的曝光处理结束直至从基板载台PST卸载)中的液体使用量。 This suppresses the liquid supply amount of stepping movement of the substrate P during the exposure process is not performed can be suppressed in the entire exposure process (the substrate P ride planted on the substrate stage PST, S1-S12 for all exposure shot region until the end of the processing from the substrate stage PST unloading liquid amount) was added. 这样,控制装置CONT与构成曝光处理执行动作的一部分的基板P的移动动作(步进移动或者扫描移动)相应,改变第1、第2液体供给部11、 12各自每单位时间的液体供给量。 Thus, the control unit CONT constituting the moving portion of the exposure operation of the substrate P of the operation process execution (stepping movement or scanning movement) corresponding, changes of the first, 11, each of the liquid supply amount per unit time of the second liquid supply section 12. 在此,液体供给机构10在基板P的步进移动期间降低液体1的 Here, the liquid supply mechanism 10 to reduce the liquid 1 during the stepping movement of substrate P

每单位时间的供给量,而维持(连续)液体1的供给动作。 Supply amount per unit time, while maintaining the (continuous) operation of the liquid 1 is supplied. 即,液体 That is, liquid

供给机构IO通过改变拍摄区域而改变扫描方向,或者即使在步进动作时,也维持(连续)来自供给口13A、 14A的液体供给动作。 IO supply mechanism changing the shooting area is changed by the scanning direction, or even when the stepping operation is maintained (continuously) from the supply port. 13A, 14A of the liquid supply operation. 这样, 液体供给机构10在顺序曝光基板P上的多个拍摄区域时,连续从被设置在多个位置上的供给口13A、 14A提供液体l,根据扫描方向改变液体供给位置,或者在步进移动时不改变液体供给位置,换句话说, 液体供给机构10在对1块基板P的一连串的曝光处理动作结束前(把基板P放置在基板载台PST上对全部拍摄区域S1〜S12的曝光处理结束,直至从基板载台PST卸载),从多个位置上连续提供液体l。 In this way, the liquid supply mechanism 10 sequentially exposing a plurality of shot areas on the substrate P, and continuously from the supply port 13A is provided on a plurality of positions, 14A provide a liquid L, the liquid supply change according to the position of the scanning direction, or in step without changing the position of the liquid supply is moved, in other words, the liquid supply mechanism 10 at the end of the series of the exposure process operation of a substrate P (the substrate P is placed in the substrate exposing the entire shot region of the stage PST S1~S12 process ends until unloaded from the substrate stage PST), from a plurality of positions to provide a continuous liquid l. 由此,可以防止因液体l的供给以及停止引起的液体的振动(水锤现象) 的发生。 This can prevent the occurrence of vibration due to the supply and stop of the liquid caused l liquid (water hammer phenomenon).

图6 ( b )是展示一边使基板P在-X方向上移动一边曝光处理被设置在基板P上的第2拍摄区域(例如图5的S2、 S4等)时的液体l的行迹的模式图。 The liquid l in FIG. 6 (b) be displayed while the substrate P in the -X direction while moving the exposure process of the second imaging area (e.g. S2 in FIG. 5, S4, etc.) are disposed on the substrate P during the line trace schematic diagram . 在图6(b)中,对于投影光学系统PL和基板P之间的空间从供给口13A、 14A提供液体l,由此如包含投影区域AR1那样形成液浸区域AR2。 In FIG. 6 (b), for the space between the projection optical system PL and the substrate P from the supply ports 13A, 14A to provide a liquid l, whereby as comprising liquid immersion area AR2 is formed as the projection area AR1. 在此,从相对投影区域AR1被设置在十X侧上的供给口14A提供的液体l的每单位时间的液体量因为被设定成比从被设置在-X侧上的供给口13A提供的液体l的每单位时间的液体量多,所以从供给口14A提供的液体l被在-X方向上移动的基板P牵引,被平滑地配置在投影光学系统PL和基板P之间的空间上。 The liquid amount per unit time of the supply port 14A provided in the liquid l in this case, from the opposite projection area AR1 is disposed on the + X side is set as the ratio of the supply port 13A provided on the -X side is provided the liquid amount per unit time of a plurality of liquid l, l so that the liquid from the supply port 14A is provided to move the substrate P in the -X direction of traction, is smoothly arranged in the space between the projection optical system PL and the substrate P. 这样控制装置CONT与构成曝光处理执行动作的一部分的基板P 的移动方向(移动动作)相应,改变第1、笫2供给口11、 12各自的每单位时间的液体供给量。 Thus the control unit CONT moving direction of the substrate constituting a part of an exposure operation process performed P (movement operation) corresponding, changes of the first, 11, of each of the liquid supply amount per unit time of the supply port 12 2 Zi. 此外,要从供给口13A、 14A流出到外侧的液体1被回收口22A回收,抑制要流出到基板P周围的异常的发生。 Further, from the supply ports 13A, 14A flows out to the outside of the liquid 1 recovered by the recovery port 22A to suppress the occurrence of abnormality to flow out to the surrounding substrate P.

在此,通过使基板P在-X方向移动,;故+ X侧的收集面31捕捉的液体1沿着收集面31下降,从液体回收机构20的回收口22A回收。 Here, by moving the substrate P in the -X direction; so + X side of the collecting surface 31 to capture the liquid 1 drops along the trap surface 31, 22A is recovered from the recovery port 20 of the liquid recovery mechanism. 由此,可以可靠地防止液体l的残存和对外部的流出。 This can reliably prevent the liquid from flowing out of the l and remaining outside. 而后,伴随基板P向-X侧的移动,向-X侧移动的液体量增加,由此即使不能用-X侧回收口22A全部回收液体1,也如图6(b)所示,从该液体回收位置上用被设置在-X侧上的收集部件30的收集面31捕捉液体1。 Then, with the substrate P, and the amount of liquid moved toward the -X side to increase the mobility -X side, thereby recovering the liquid 1 even if not all the -X side with the recovery port 22A, as shown in FIG 6 (b), from which a collecting member is disposed on the -X side surface 31 to collect the liquid 30 is captured on the liquid recovery position.

进而在此,收集面31是被形成为相对投影区域AR1随着向外侧方向而向上方倾斜,但也可以是水平(0度)。 In addition, the trap surface 31 is formed with upwardly inclined in an outward direction relative to the projection area AR1, but may be horizontal (0 degree). 另一方面,如果收集面31向下方倾斜,则因为要流出的外侧的流通能量未被转换为势能, 而且即使基板P在相反方向上移动时如流体1沿着收集面31下降那样不移动到回收口22A,所以不能用回收口22A平滑地回收液体l。 On the other hand, if the trap surface 31 is inclined downward, since the flow of energy flowing to the outside is not converted into potential energy, and even when the substrate P moves in the opposite direction along the fluid 1 is lowered as the collection surface 31 is not moved to recovery port 22A, 22A can not be smoothly recovered by the liquid recovery port l. 因而,理想的是收集面31是水平面(0度)或者向上方向的倾斜面。 Accordingly, it is desirable that the collection surface 31 is horizontal (0 degree) or an inclined surface in the upward direction.

进而,在相对基板P上的每单位时间的液体供给量多的情况下, 和扫描速度高速的情况下,因为要流出到外侧的液体量多,所以收集面31的倾斜角度根据这些液体供给量以及扫描速度被设定在最佳角度。 Inclination angle Further, the liquid supply amount per unit time on the opposite substrate P is large, and the case where the scanning speed of the high speed, due to the outflow of the amount of liquid outside, therefore the collection surface 31 of the liquid supply amount in accordance with and a scanning speed is set at the optimum angle. 即,当液体供给量多的情况下和扫描速度高速的情况下,收集面31的倾斜角度被设定得大。 That is, when the scanning speed and high speed case where the liquid supply amount is large, the angle of inclination of the trap surface 31 is set to be large. 另一方面,当收集面31的倾斜角度过大时,存在不能用收集面31彻底捕捉(保持)液体l的情况。 On the other hand, when the angle of inclination of the trap surface 31 is too large, there is not completely captured by the trap surface 31 case (holding) the liquid l. 在此,因为通过采用亲液化处理增强亲液性,收集面31的液体保持力增大,所以在增大倾斜角度的情况下,通过改变亲液化处理的处理条件对收集面31赋予最佳的亲液性,即使增大倾斜角度也可以保持液体l。 Here, since enhanced by using lyophilic treatment lyophilic, the liquid collecting surface 31 of the holding force is increased, so that in the case where the inclination angle is increased by changing the process conditions is given lyophilic treatment for the trap surface 31 of the best lyophilic, even when the inclination angle may be increased to maintain a liquid l. 因而, 收集面31的倾斜角度根据液体供给量、扫描速度以及液体的材料特性(收集面的液体亲和性)等的各参数,被设定在最佳角度。 Accordingly, the inclination angle of the trap surface 31 of the liquid supply amount, the scanning speed and the material characteristics of the liquid (liquid affinity of the trap surface) like the parameters is set at an optimum angle.

可是,本实施方式的回收材料22的构成包括:被连续地形成为圆环状的回收口22A、被设置在回收口22A的内部的隔断部件23、用该隔断部件23分割的多个分割空间24,在聚合多个分割空间24的岐管部25上经由回收管21A接触液体回收部21。 However, the recycled material according to the present embodiment is configured 22 includes: a continuously formed annular recovery port 22A, is provided inside the recovery port 22A of the partition member 23, a plurality of divided spaces by the partition member 23 divided 24 in the polymerization the contact portion a plurality of divided manifold space 24 via the recovery tube 25 of the liquid recovery portion 21 21A. 由此,因为包含真空泵等构成的液体回收部21设置1个即可,所以可以简化装置构成。 Accordingly, since the liquid recovery section 21 is provided comprising a can made of a vacuum pump, it is possible to simplify the apparatus. 在此,在回收部件22的外周方向的各位置的各自上产生用于回收液体1 的吸引负荷不同的状态,由此液体回收部21的吸引力降低,存在不能平滑地进行回收动作的情况。 Here, the load generated to attract a different state for recovering the liquid 1 on the respective outer circumferential direction of the respective positions of the recovery member 22, whereby the liquid recovery portion 21 is reduced attraction, there is not a case where a smooth recovery operation. 但是,通过设置隔断部件23可以平滑地进行回收动作。 However, the recovery operation 23 may be performed smoothly by providing the blocking member. 即,例如因液体l的行迹的原因,相对在回收部件22中在+ X侧的回收口22A中只回收(吸引)液体1相反,在-X侧的回收口22A中发生包含空气(吞入空气)吸引的状态。 That is, for example, a liquid line trace reasons l relative recovered in the recovery member 22 is only the recovery port 22A on the + X-side (suction) opposite to a liquid, comprising occurred air recovery port 22A on the -X side (swallowed air) to attract state. 这种情况下, 扩大在-X侧的回收口22A中的空气吞入区域,如本实施方式所示当用一系统的液体回收部21回收液体的情况下,由于吞入的空气产生构成液体回收部21的真空泵的吸引力降低的异常。 In this case, the expansion of the -X side of the recovery port 22A of the air swallowed region, the present embodiment as shown in the case where the liquid recovered by the liquid recovery portion 21 of a system, generated due to the ingestion of air constituting the liquid the vacuum recovery portion 21 to reduce the attractiveness of abnormality. 可是,在连续形成的回收口22A的内部(内部空间22H)上设置隔断部件23,通过设置相互独立的分割空间24,因为可以相对吞入空气的区域把只吸引液体1 的区域在空间上分离,所以可以防止由于空气吞入区域的扩大或者吞入的空气的影响液体回收部21的吸引力降低这种异常的发生,由此即使液体回收部21是一系统,液体回收机构20也可以平滑地回收液体 However, in the interior (internal space 22H) of the recovery port 22A formed continuously provided on the partition member 23, by providing the mutually independent divided spaces 24, since the opposing area can be swallowed only the air suction area of ​​the liquid 1 is spatially separated from , it is possible to prevent air ingestion or swallowing enlarged region of influence of the liquid recovery portion of the air 21 is lowered the attractiveness of such an abnormality occurs, thereby even when the liquid recovery section 21 is a system, the liquid recovery mechanism 20 may be smooth recovering the liquid

如上所述,为了形成液浸区域AR2,因为设置在相对投影区域AR1在不同的多个方向上隔开的位置上(从投影区域AR1的相互不同的多侧)同时进行基板P上的液体1的供给的液体供给机构10,所以即使基板P在包含扫描方向(士X方向)以及步进方向(士Y方向) 的多个方向上移动的情况下,也可以在投影光学系统PL和基板P之间始终平滑并且良好地形成液浸区域AR2。 As described above, in order to form the liquid immersion area AR2 of, since the projection area AR1 disposed opposite a plurality of directions spaced in different positions (projection area AR1 from the plurality of mutually different sides) while the liquid on the substrate P 1 supply means for supplying the liquid 10, even if the substrate P in the scanning direction, comprising (Shi X direction) and in the case where a plurality of directions moving step direction (Shi Y direction) may be the projection optical system PL and the substrate P always smoothly and satisfactorily between the formed liquid immersion area AR2. 因而,可以在高解像度以及宽焦深下进行曝光处理。 Accordingly, the exposure process may be performed at a high resolution and a wide depth of focus.

在顺序曝光处理基板P上的多个拍摄区域的各自时,因为用液体供给机构IO从多个位置连续提供液体1,所以可以防止伴随液体1的提供以及停止的液体振动(水锤现象)的发生,由此可以防止被转印的图案的劣化。 When the exposure processing sequence of a plurality of respective shot areas on the substrate P, and since the liquid supply means supplying the liquid from a plurality of IO consecutive positions 1, it is possible to prevent the liquid 1 of the accompanying provided and a liquid vibration (water hammer phenomenon) is stopped It occurs, thereby preventing deterioration of the transferred pattern.

此外,液体供给机构10因为由供给口13A、14A从投影区域AR1 的扫描方向两侧提供液体1,所以为了使所提供的液体1被在扫描方向上移动的基板P牵引而在投影区域AR1上渍湿扩散,如包含投影区域AR1那样平滑地形成液浸区域AR2。 Further, because the liquid supply mechanism 10, 14A provide a liquid from the both sides in the scanning direction of the projection area AR1 from the supply ports. 13A 1, it is provided in order that the liquid 1 is moved in the scanning direction of the substrate P and the projection area AR1 pulled in diffusion wet stains, such as that the projection area AR1 smoothly form the liquid immersion area AR2. 而后,在本实施方式中,液体供给机构10因为相对扫描方向,使从投影区域AR1的跟前提供的液体量比在其相反侧提供的液体量还多,所以被提供给基板P上的液体1被移动的基板P牵引沿着基板P的移动方向流动,被吸引进投影光学系统PL和基板P之间的空间平滑地配置。 Then, in the present embodiment, the liquid supply mechanism 10 because the relative scanning direction so that the ratio of the liquid from the front of the projection area AR1 provided the amount of liquid provided on the opposite side more than, it is supplied to the liquid on the substrate P 1 traction substrate P is moved along the moving direction of the substrate P flows, and is sucked into the space between the projection optical system PL and the substrate P is smoothly arranged. 因而,从液体供给机构10提供的液体1即使其供给能量小也在投影光学系统PL和基板P 之间被平滑地配置,可以良好地形成液浸区域AR2。 Accordingly, even if a small supply of energy is also smoothly arranged between the projection optical system PL and the substrate P from the liquid supply mechanism 10 supplies the liquid can be satisfactorily form the liquid immersion area AR2. 而后,与扫描方向相应通过变更从供给口13A、 14A各自提供的液体量,可以切换液体l的流动方向。 Then, corresponding to the scanning direction by changing the amount of liquid supply ports 14A are each provided. 13A, to switch the flow direction of the liquid l. 由此即使在+ X方向,或者-X方向的某一方向上扫描基板P的情况下,也可以平滑地在投影光学系统PL和基板P之间形成液浸区域AR2,可以得到高解像度以及宽焦深。 Whereby even when the substrate scanning direction either the + X direction, -X direction P or may be formed in the liquid immersion area AR2 between the projection optical system PL and the substrate P is smoothly possible to obtain high resolution and a wide focus deep.

此外,液体回收机构20的回收部件22如包围投影区域AR1以及供给部件13、 14那样被形成为圆环状,因为在相对投影区域AR1 不同的多个方向上隔开的多个位置上(从投影区域AR1的不同的多侧)同时进行基板P上的液体1的回收,所以可以可靠地防止液体l 对基板P外侧流出或飞溅等的异常的发生。 Further, the recovery member 20 of the liquid recovery mechanism 22 such as to surround the projection area AR1 and the supply members 13, 14 is formed as an annular shape, because a plurality of spaced positions in a plurality of different directions relative to the projection area AR1 (from projection area AR1 of the different multi-sided) simultaneously recover the liquid 1 on the substrate P, and the liquid can be reliably prevented from occurrence of an abnormality l of effluent or the like outside of the substrate P splashing. 即,液体回收机构20在与1个基板P有关的一连串的曝光处理动作结束前(直至相对基板P 上的全部拍摄区域S1〜S12的曝光处理结束,形成液浸区域AR2的液体1的回收完成前),因为连续从如包围投影区域AR1那样配置的回收口22A进行回收动作,所以即使在基板P的一连串的曝光处理动作中液体1向任何方向上扩散,也可以良好地回收液体l。 That is, the liquid recovery mechanism 20 before the end of the series of the exposure process operation relating to one substrate P (until all shot areas on the substrate P S1~S12 opposite end of the exposure process, the recovered liquid forming the liquid immersion area AR2 is completed 1 front), because the continuous recovery operation such as to surround the projection area AR1 configured as the recovery port 22A, so that the diffusion of the liquid 1 in any direction, even if the exposure process in a series of operation of the substrate P, the liquid may be recovered satisfactorily l. 此外,在与基板P有关的一连串的曝光处理动作中,因为不需要停止来自回收口22A的液体的吸引,所以可以抑制伴随液体吸引停止的振动。 Further, in the series of exposure processes related to the operation of the substrate P, it is not necessary to stop the recovery port 22A of the liquid from the suction, it is possible to suppress the vibration accompanying the liquid suction is stopped.

此外,通过设置捕捉不能用液体回收机构20彻底回收的液体1 的收集部件30,可以防止液体1对基板P外侧的流出或飞溅等的异常的发生。 Further, by providing the collecting member can not be used to capture the liquid recovery mechanism 20 is recovering the liquid 1 thorough 30, and the like can be prevented occurrence of an abnormality substrate P outside the liquid 1 flows out or splashing. 而后,在本实施方式中,收集面31因为被形成为把沿着液体1最容易向基板P外侧流出的扫描方向(X轴方向)作为长度方向的平面看椭圆形状,所以可以可靠地防止液体1流出到外部。 Then, in the present embodiment, since the trap surface 31 is formed as a plane to the longitudinal direction of the elliptical shape viewed along the direction of scanning most liquid easily flows to the outside of the substrate P (X axis direction), it is possible to reliably prevent the liquid 1 flows out to the outside. 此外,因为对收集面31实施提高和液体l的亲和性的亲液化处理,所以可以良好地捕捉要流出的液体l。 Further, since the embodiment lyophilic treatment increases affinity for the liquid and the collection surface 31 l, it is possible to satisfactorily capture the liquid outflow l. 进而,收集面31的液体亲和性因为通过表面处理比基板P表面的液体亲和性还高,所以因为要流出到外部的液体1不附着在基板P上而被收集面31捕捉,所以可以防止在基板P 的表面上残存液体l的异常的发生。 Further, the liquid affinity of the trap surface 31 as the surface treatment liquid is higher than the affinity for the surface of the substrate P, the liquid to flow out to the outside because 1 is not attached to the substrate P and the trap surface 31 is captured, it can be preventing the occurrence of abnormality in the remaining liquid on the surface of the substrate l of P. 此外,因为收集面31相对投影区域AR1随着向外侧方向而向上方倾斜,所以可以良好地捕捉要流出到外部的液体l,而且,在基板P的扫描方向是相反方向时,因为被捕捉的液体1在收集面31上向下方传递,所以可以用与该收集面31连接的回收口22A良好地回收。 Further, since the collection surface 31 with respect to the projection area AR1 inclined upward toward the outside, it is possible to satisfactorily capture the liquid L flowing out to the outside, moreover, the substrate P in the scanning direction is the opposite direction, because the captured 1 the liquid to pass downward on the collecting surface 31, can be recycled to the connection port 31 of the trap surface 22A be recovered.

此外,因为为了液浸曝光用而从液体供给机构10提供和投影光学系统PL的前端的液体接触面的亲水性比和涂布在基板P表面上的感光材料的亲水性还高的液体(水)1,所以在可以用液体l可靠充满投影光学系统PL和基板P "^间的光路的同时,提供给基板(P )上的液体(1)被平滑地回收,可以防止液体l的流出或飞溅等的异常。 Further, since the liquid immersion exposure in order from the ratio of the hydrophilic coating liquid contacting surface and provide the liquid supply mechanism 10 and the front end of the projection optical system PL hydrophilic photosensitive material on the surface of the substrate P is also high liquid (water) 1, so may be a liquid l reliably filled with the projection optical system PL and the substrate P "while the optical path ^ between, supplied to the liquid onto the substrate (P) (1) is smoothly recovered liquid can be prevented l, outflow or splashing and other abnormalities.

进而,在本实施方式中在从投影区域AR1的扫描方向两侧提供液体l时,在扫描方向上,使在接近投影光学系统的一侧提供的液体量比在远离上述投影光学系统的一侧提供的液体量还多,但也可以把从投影区域AR1的两侧提供的液体l设置为同样量。 Further, in the present embodiment, when supplying liquid l from the both sides in the scanning direction of the projection area AR1 in the scanning direction, than the liquid on the side near the projection optical system provided at the side remote from the projection optical system It provides more than the amount of liquid, but the liquid may be from l to both sides of the projection area AR1 is set to provide the same amount. 这种情况下,因为在切换扫描方向时也不发生液体1的供给量的变化,所以可以更可靠地防止水锤现象的发生。 In this case, because the change in the supply amount of the liquid 1 does not occur when switching the scanning direction, it is possible to more reliably prevent the occurrence of the water hammer phenomenon. 另一方面,通过一边连续提供液体1, 一边根据扫描方向使从投影区域AR1的扫描方向两侧提供的液体量变化,可以在抑制水锤现象发生的同时抑制液体1的使用量。 On the other hand, by continuously supplying the liquid 1 while, the amount of change from the liquid while the scanning direction of the projection area AR1 provided on both sides in accordance with the scanning direction, can suppress the amount of the liquid 1 while suppressing the occurrence of water hammer.

进而,在本实施方式中其构成是,在对1块基板P的曝光处理动作中,连续进行来自供给口13A、 14A的液体l的供给,在中途不停止。 Further, in the present embodiment is configured so that, in operation of an exposure process of the substrate P continuously supplied from a liquid supply port l 13A, 14A are not stop in the middle. 例如,其构成可以是,在使基板P向+X侧扫描移动时,停止来自供给口14A的液体供给只从供给口13A提供液体l,在使基板P向-X侧扫描移动时,停止来自供给口13A的液体提供只从供给口14A 提供液体l。 For example, it may be configured in the substrate to provide liquid P l + X side of the scanning movement, stopping the liquid supply from the supply port 14A from the supply port only. 13A, when the substrate P moves in the -X side scanning is stopped from the liquid supply port 13A is provided only l of liquid from the supply port 14A. 进而其构成可以是,在基板P的步进移动时,液体供给机构10停止对基板P的液体1的供给。 It may be further configured, when the stepping movement of substrate P, the liquid supply mechanism 10 stops the supply of the liquid 1 to the substrate P. 这种情况下,在开始扫描曝光时,只要在规定时间进行液体1的供给等待液体振动平息后扫描啄光即可。 In this case, at the start of the scanning exposure, the liquid 1 supplied liquid vibration subsided after waiting as long as the scanning light pecking at a predetermined time. 通过设置成这样的结构可以抑制液体l的使用量。 By such a structure may be arranged to suppress the amount of the liquid l. 另一方面。 on the other hand. 通过连续供给液体1,因为不需要设定直到液体振动平息的等待时间, 所以可以提高生产量。 By continuously supplying the liquid 1, it is not necessary to set the waiting time until the vibrations subside liquid, it is possible to increase production.

在本实施方式中的构成是,液体供给机构IO的的供给口13A、14A相对投影区域AR1被设置在扫描方向两侧上,但例如如全部包围投影区域AR1的四周那样也可以在投影区域AR1的非扫描方向两侧设置供给口(供给部件)。 In the present embodiment constituting the supply port of the liquid supply mechanism IO 13A, 14A relative to the projection area AR1 is provided on both sides of the scanning direction, for example as a whole to surround the projection area AR1 may be four weeks, as the projection area AR1 both sides of the supply port (supply member) is the non-scanning direction. 而后也可以从如包围投影区域AR1那样设置的供给口各自向基板P上提供液体1。 Then each may be provided as the liquid 1 from the supply port disposed as to surround the projection area AR1 on the substrate P. 在此,在对投影区域AR1在扫描方向两侧的各自和非扫描方向两侧的各自上设置供给口时,即, 在如包围投影区域AR1那样相互独立设置的4个供给口时,在一边使基板P在扫描方向上移动一边曝光处理时,可以从4个供给口的全部提供液体l,也可以只从设置在扫描方向两侧的供给口提供液体1,而停止(或者少量提供)从被设置在非扫描方向两侧上的供给口的液体供给。 Here, when the respective non-scanning direction and on both sides of the projection area AR1 in the scanning direction is provided on each of both sides of the supply port, i.e., when as surround the projection area AR1. 4 as independent supply ports provided in the side while moving the substrate P in the scanning direction of the exposure process, it is possible to provide all of the four supply ports liquid L, the liquid 1 may be provided only from the supply port disposed on both sides in the scanning direction, is stopped (or a small number provided) from the liquid supply port is provided on both sides of the non-scanning direction. 而后,在向非扫描方向移动基板P时,也可以从被设置在非扫描方向两侧上的供给口提供液体。 Then, when the substrate P moves toward the non-scanning direction, it may be provided from both sides of the supply port on the liquid non-scanning direction is provided. 或者,也可以是这样的结构,如包围投影区域AR1那样设置环状的供给部件,经由该供给部件向基板P 上提供液体l。 Alternatively, a configuration may be such as to surround the supply member such as a ring-shaped projection area AR1, l to provide a liquid onto the substrate P via the supply member. 这种情况下,因为把液体1发送到供给部件的液体供给部用l个即可,所以可以简化装置结构。 In this case, since the liquid sent to the liquid supply unit 1 by the supplying member to a l, the device structure can be simplified. 另一方面,如上述实施方式所示,如果相对投影区域AR1在扫描方向两侧上有供给口13A、 14A,则可以把投影区域AR1充分设置在液浸区域AR2上,可以抑制液体1的使用量。 On the other hand, as shown in the above embodiment, if the projection area AR1 supply port 13A on both sides of the scanning direction, 14A, the projection area AR1 may be disposed in full immersion area AR2 of the liquid, the liquid used can be suppressed 1 the amount.

此外,在本实施方式中的结构是,液体供给机构IO的供给口13A、 14A相对投影区域API被设置在扫描方向两侧上,当投影光学系统PL和基板P之间用液体1充分充满的情况下,可以从接近投影区域AR1配置的l个供给口提供液体。 Further, in the structure of the present embodiment, the liquid supply mechanism IO supply port 13A, 14A relative to the projection area is provided on both sides API scanning direction, when the projection optical system PL, and between the substrate P is sufficiently filled with a liquid case, the liquid may be provided from the projection area AR1 disposed near the supply ports l. 这种情况下,直至1块基板P上的全部拍摄的曝光结束前,通过从该1个供给口连续提供液体,可以抑制水锤现象的发生,可以抑制液体的使用量。 In this case, a substrate until the end of the exposure of all the shot P, by providing a liquid from a supply port of the continuous occurrence of the water hammer phenomenon can be suppressed, the amount of liquid used can be suppressed.

进而,在上述实施方式中,第1、第2供给部件13、 14和回收部件22隔开,但也可以连接第1、第2供给部件13、 14和回收部件22, 还可以设置在第1、第2供给部件13、 14和回收部件22之间连接它们的连接部件。 Further, in the above-described embodiment, the first and second supply members 13, 14 and the recovery member 22 are separated, but may be connected to the first and second supply members 13, 14 and the recovery member 22 may also be provided in the first the second feeding member 13, connecting member 22 are connecting member 14 and the recovery. 此外,在上述实施方式中,说明了供给部件13、 14 的内部流路13H、 14H和回收部件22的内部流路22H相对基板P的表面垂直的情况,但也可以倾斜。 Further, in the above-described embodiment, the case where the supply member 13, the internal flow path 14 of 13H, 14H and the internal flow passage 22H of the recovery member 22 perpendicular to the surface of the substrate P, but it may be inclined. 例如,也可以设置成使供给部件13、 For example, it may be provided such that the supply member 13,

3114的内部流路13H、 14H(或者供给口13A、 14A )向着投影区域AR1 侧。 Internal flow passage 3114 13H, 14H (or the supply ports 13A, 14A) toward the side of the projection area AR1. 进而,也可以使供给口13A、 14A和回收部件22的回收口22A 的相对基板P的表面的距离(高度)不同。 Further, the supply port may be made. 13A, different from the opposing surface of the substrate and a recovery port 14A of the recovery member 22 P 22A (height).

进而,包含供给部件13、 14的液体供给机构10以及包含回收部件22的液体回收机构20的各自理想的是,用投影光学系统PL以及支撑该投影光学系统PL的支撑部件以外的支撑部件支撑。 Furthermore, comprising a supply member 13, the liquid supply mechanism 14, 10 and the liquid recovery mechanism comprises a recovery member 22 are each preferably 20 is supported by a support member other than the projection optical system PL and a support member for supporting the projection optical system PL. 由此,可以防止在液体供给机构IO和液体回收机构20中发生的振动传递到投影光学系统PL。 Thereby, it is possible to prevent the transmission to the projection optical system PL in the vibration of the liquid supply mechanism and the liquid recovery mechanism 20 IO occurring. 此外相反,由于使投影光学系统PL和供给部件13、 14无缝隙接触,还可以期待防止大气混入液体1的效果。 Also contrary, since the projection optical system PL and the supply member 13, 14 contacts seamless, further effects can be expected to prevent air mixed into the liquid 1.

以下,说明本发明的另一实施方式。 Hereinafter, another embodiment of the present invention. 在此,在以下的说明中,对和上述实施方式相同或者相等的构成部分标注相同的符号,简化或者省略其说明。 Here, in the following description, the same reference numerals and the above-described embodiments of the same or equivalent components, simplified or omitted.

上述实施方式的液体回收机构20的结构包括:1个液体回收部21;在该液体回收部21上经却回收管21A连接,具有连续形成为圆环状的回收口22A的回收部件22,但也可以i殳置多个液体回收部。 Structure of the liquid recovery mechanism 20 of the above embodiment comprising: a liquid recovery section 21; on the liquid recovery portion 21 via the recovery tube 21A is connected has, formed as a continuous annular member 22A of the recovery holes 22, but i may be set to the plurality of liquid recovery portions Shu. 由此可以抑制在回收口22A的各回收位置上的回收力的离散。 Whereby discrete power recovered in the recovery port 22A on each of the recovery position can be suppressed. 此外,控制装置CONT也可以根据液体回收位置使该多个液体回收部的各自的回收力不同。 Further, the control unit CONT can also make the recovery force of the respective plurality of liquid recovery portions depending on the liquid recovery position. 参见图7。 See Figure 7.

图7是展示本发明的另一实施方式的图,是展示液体回收机构20 的另一例子的平面模式图。 FIG 7 is a view showing another embodiment of the present invention is a planar schematic view showing another example of the liquid recovery mechanism 20. 在图7中,液体回收机构20包括:第1 液体回收部26;第2液体回收部27;在该第1液体回收部26上经由回收管26A连接的第1回收部件28,、在第2液体回收部27上经由回收管27A连接的第2回收部29。 In FIG. 7, the liquid recovery mechanism 20 includes: a first liquid recovery unit 26; a second liquid recovery unit 27; a first member on the recovery of the first liquid recovery portion 26 is connected via a recovery tube 26A 28 ,, in the second the liquid recovery section 27 via the recovery tube connected to the second recovery portion 27A 29. 第1、第2回收部件28、 29的各自被形成为平面看大致圆弧状,第1回收部件28被配置在投影区域AR1 的-X侧,另一方面,第2回收部件29被配置在投影区域AR1的+ X侧上。 First and second recovery members 28, 29 are each formed as a substantially arc shape in plan view, a first recovery member 28 is disposed on the -X side of the projection area AR1, on the other hand, the second member 29 is disposed in the recovery projection area AR1 on the + X side. 进而,第1、第2回收部件28、 29和上述实施方式一样,具备向基板P—侧的回收口和被设置在其内部的隔断部件。 Further, the first and second recovery members 28, 29 as the above embodiment, the partition member includes a recovery port and the P- substrate side is disposed inside thereof. 此外,第1、 第2液体回收部件26、 27的回收动作由控制装置CONT分别独立进行。 Further, the first and second liquid recovery parts 26, 27 of the recovery operation are independently performed by the control unit CONT. 在扫描曝光基板P上的拍摄区域时,控制装置CONT在由液体供给机构10把液体1提供给基板P上的同时,在液体回收机构20中驱动第1、笫2液体回收部26、 27的各自,回收基板P上的液体1。 When shooting area in the scanning exposure of the substrate P, the control unit CONT while providing the liquid supply mechanism 10 liquid 1 to the substrate P, and drives the first in the liquid recovery mechanism 20, Zi second liquid recovery portion 26, 27 each of the liquid 1 on the substrate P recovered. 在此,控制装置CONT根据液体回收位置控制液体回收机构20的液体回收力使其不同。 Here, the control unit CONT controls the liquid recovery force of the liquid recovery mechanism 20 so that depending on the liquid recovery position. 具体地说,控制装置CONT相对于扫描方向,把在投影区域AR1的跟前的每单位时间的液体回收量(回收力)设定为比在其相反侧的液体回收量还少。 Specifically, the control unit CONT respect to the scanning direction, is set in front of the liquid recovery amount per unit time of the projection area AR1 (recovery force) than the liquid recovery amount is on the opposite side is also small. 即,增加在扫描方向前方侧(液体1流过的下游侧)上的液体回收力。 That is, the liquid recovery force is increased in the scanning direction on the front side (a downstream side of the liquid flows) of. 具体地说,在基板P向+X方向移动时,相对投影区域AR1把被设置在+ X侧上的笫2回收部件29 (第2液体回收部件27)的回收力设置成比由被设置在-X侧上的第l回收部件28 (第l液体回收部26)的回收力大。 Specifically, when the substrate P moves in the + X direction, relative to the projection area AR1 Zi + 2 is disposed on the X side of the recovery member 29 (second liquid recovery member 27) than the recovery force setting is provided by the the l recovery member 28 on the -X side of the recovery force (liquid recovery section 26 of l) is large. 由此,在可以防止流体1向外部流出的同时可以平滑地进行基板P上的液体回收动作。 Accordingly, the liquid recovery operation can be performed on the substrate P can be smoothly while preventing an outflow of the fluid to the outside.

进而,在上述实施方式中其构成是同时进行采用第1、第2液体回收部件26、 27的液体回收动作,但也可以是分别进行的结构。 Further, in the above-described embodiment is configured simultaneously using first and second liquid recovery parts 26, 27 of the liquid recovery operation, but the structure may be carried out separately. 例如其结构是,在基板P向-X方向移动时,只由相对投影区域AR1被设置在+ 乂侧上的第2回收部件29(第2液体回收部27)进行液体回收动作,停止由第1回收部件28(第1液体回收部26)进行的液体回收动作。 The structure is, for example, when the substrate P moves in the -X direction, only the second recovery member is disposed on the + side by Yi in the projection area AR1 29 (second liquid recovery section 27) of the liquid recovery operation by the second stop a recovery member 28 (first liquid recovery section 26) performed by the liquid recovery operation. 这种情况下,因为液体1主要在+ X侧流动,所以只通过第2 液体回收部27的回收动作也可以回收液体1。 In this case, because the liquid 1 flows mainly in the + X side, so only the second recovery operation by the liquid recovery section 27 may be a recovered liquid.

此外,在上述各实施方式中,配置液体回收机构20的回收部件包围投影区域AR1的全部,但其结构也可以是只在投影区域AR1的扫描方向两侧上。 Further, in the above described embodiments, the liquid recovery mechanism arranged recovery member 20 to surround the entire projection area AR1, it may be only the structure on both sides of the scanning direction of the projection area AR1.

此外,在上述各实施方式中,如包围投影区域AR1那样连续形成液体回收机构20的回收部件,而如图8所示其构成也可以是,断续配置多个回收部件22D。 Further, in the above described embodiments, such as to surround the projection area AR1 is formed as a continuous recovery member of the liquid recovery mechanism 20, and as shown in Figure 8 may be configured, a plurality of intermittent recovery member 22D. 同样其结构也可以是,对于液体供给机构IO 也是断续配置多个供给部件13D、 14D。 The same structure may also be, for liquid supply mechanism IO is intermittently feeding a plurality of members 13D, 14D. 这种情况下,因为用如包围投影区域AR1那样配置的回收口连续进行回收动作,所以即使液体1 向某一方向扩散,也可以良好地回收液体l。 In this case, because such a recovery port configured as to surround the projection area AR1 continuously recycling operation, even if the diffusion of the liquid 1 in a certain direction, the liquid may be recovered satisfactorily l.

此外,在设置有多个液体回收机构20的回收部件的情况等中,液体回收机构20通过使相对投影区域AR1在扫描方向上隔开的位置上的液体回收力(每单位时间的液体回收量),比在和它不同的位置上,具体地说是在非扫描方向上隔开的位置上的液体回收力还大,可以在扫描曝光时,平滑地回收基板P上的液体1。 Further, there are provided a plurality of recovery members of the liquid recovery mechanism 20, etc., the liquid recovery by the liquid recovery mechanism 20 on the relative force of the projection area AR1 in the scanning direction spaced apart position (the liquid recovery amount per unit time ), and its ratio in different positions, particularly on the liquid recovery force is spaced apart positions in the non-scanning direction is larger, during the scanning exposure can smoothly recover the liquid 1 on the substrate P.

此外,通过对用隔断部件23分割的分割空间24的各自经由回收管分别连接具有真空泵等的多个液体回收部,独立控制这些多个液体回收部的回收动作,可以根据液体回收位置使回收力不同。 Further, by having a plurality of liquid recovery portions of a vacuum pump with a partition member 23 dividing a space division each respectively connected via the recovery tube 24, a plurality of independent control of the recovery operation of the liquid recovery unit, recovery can be made according to the liquid recovery position of the force different. 进而,在分割空间24的各自上不各自连接液体回收部,而用多个回收管连接l 个液体回收部和多个分割空间24的各自,在这些回收管的各自上设置阀门,通过调整阀门的开度,可以与液体回收位置相应地使回收力不同。 Further, on the respective divided spaces 24 is not connected to the respective liquid recovery portion, and a plurality of recovery pipes connected l and a plurality of liquid recovery portions 24 of each of the divided spaces, the valve is arranged in each of these recovery pipe, by adjusting the valve the opening degree of the recovery force may be correspondingly different and the liquid recovery position. 进而,通过改变上述多个回收管各自的长度,也可以通过压力损失使在各分割空间24上的回收力不同。 Further, the plurality of recovery tubes by changing the length of each may be different so that the pressure loss by the recovery force on each of the divided spaces 24.

进而,在上述各实施方式中,液体供给机构10的供给部件是平面看大致圆弧形状,而如图9所示,也可以是直线形状。 Further, in the above described embodiments, the liquid supply mechanism supplying member 10 is a planar view substantially circular arc shape, and as shown in FIG. 9 may be a linear shape. 在此,图9 所示的平面看直线状的供给部件13、 14分别被设置在投影区域AR1 的扫描方向两侧上。 Here, the plane shown in FIG. 9 see the linear supply section 13, 14 are disposed on both sides of the projection area AR1 in the scanning direction. 同样,液体回收机构20的回收部件22也并不限于圆环状,如图9所示可以是矩形形状。 Similarly, the recovery member 20 of the liquid recovery mechanism 22 is not limited to the annular shape, as shown in FIG 9 may be rectangular in shape.

如图10(a)所示,也可以在液体供给机构10的供给部件13(14) 的内部流路13H (14H)上设置多孔质体40。 FIG 10 (a) as shown, may be provided on the porous body 40 13 (14) internal flow passage 13H of the liquid supply member supplying mechanism 10 (14H). 或者如图10 (b)所示, 也可以设置隔断部件41形成缝隙状的流路。 Or FIG. 10 (b), the partition member 41 may be provided a slit-shaped flow path. 通过这样,可以整流从供给部件13 (14)提供给基板P上的液体l,可以抑制在基板P上产生紊流或者液体振动的异常的发生。 By this way, it can be supplied from the rectifying section 13 (14) is supplied to the liquid l in the substrate P, and can suppress the occurrence of turbulence or abnormal vibration of the liquid on the substrate P.

在上述各实施方式中,说明了收集部件30 (收集面31)是平面看椭圆形状,但也可以是圆形或者矩形形状。 In the above embodiments, the description of the collecting member 30 (trap surface 31) is elliptical in plan view, but may be circular or rectangular shape. 另一方面,因为液体1 容易流出的地方是投影区域AR1的扫描方向两侧,所以如上所述,通过把收集部件30设置成椭圆形状,可以良好地捕捉要流出的液体1。 On the other hand, because the place is the liquid 1 flows out easily on both sides of the projection area AR1 in the scanning direction, as described above, the collecting member 30 is provided by an elliptical shape, may be satisfactorily capture the liquid 1 which intends to outflow. 此外,在上述实施方式中其构成是,收集部件30 (收集面31)是椭圓形状,在回收部件22的液体回收位置的外侧全部上如包围回收部件22那样设置,例如可以设置成只设置在投影区域AR1的扫描方向两侧,不设置在相对投影区域AR1在非扫描方向上隔开的位置上。 Further, in the above-described embodiment is configured, trap member 30 (trap surface 31) is an elliptical shape, enclosing all the recovered such as member disposed outside the liquid recovery position of the recovery member 22 of 22, for example, may be provided only provided projection area AR1 in the scanning direction on both sides, is not provided in spaced opposing projection area AR1 in the non-scanning direction positions. 因为液体1不容易流出的位置在扫描方向两侧,所以即使只在投影区域AR1的扫描方向两侧上设置收集部件30,也可以良好地捕捉要流出的液体l。 Since the liquid 1 does not flow easily position both in the scanning direction, even if the collecting member is provided only on both sides of the projection area AR1 in the scanning direction 30, may be satisfactorily capture the liquid outflow l. 此外,也可以设置成收集面31的倾斜角度根据其位置不同。 Further, the inclination angle may be provided in the collection surface 31 depending on its position. 例如,在收集面31中也可以使投影区域AR1的扫描方向两侧附近的倾斜角度比其他的部分大。 For example, in the collection surface 31 may be made of the projection area AR1 in the scanning direction near the both sides of the inclination angle is larger than the other portions. 此外,收集面31不需要是平面,例如可以是组合多个平面的形状。 In addition, the trap surface 31 need not be planar, for example, it may be a combination of the shape of a plurality of planes.

图11是展示收集部件30的收集面31的另一实施方式的图。 FIG. 11 is a view showing another embodiment of the collecting member 31 of the embodiment 30 of the collecting surface. 如图11所示,收集面31可以是曲面形状。 11, the trap surface 31 may be a curved shape. 具体地说,如图ll所示,收集面31可以是断面看例如2维曲线形状或者圆弧形状。 Specifically, as shown in FIG ll, the trap surface 31 may be a 2-dimensional cross-sectional see e.g. arc shape or a curved shape. 在此,收集面31理想的是向基板P —侧胀出的曲面。 In this case, the trap surface 31 is desirable to the substrate P - sides bulge out of the surface. 即使是这样的形状也可以良好地捕捉液体l。 Even in such a shape can be satisfactorily capture the liquid l.

或者,如图12所示,可以对收集面31实施表面积扩大处理,具体地说实施粗面处理。 Alternatively, as shown in FIG, 31 may be implemented on the trap surface 12 surface area expansion processing, specifically rough surface processing embodiment. 通过粗面处理收集面31的表面积扩大,可以更进一步良好地捕捉液体l。 Surface area of ​​the trap surface 31 of expansion processing by the rough surface can be further satisfactorily capture the liquid l. 进而,粗面处理不需要在收集面31的整个面上,其构成可以是在收集面31中,例如只在沿着扫描方向的一部分的区域上实施粗面处理。 Further, roughening process does not require the entire surface of the collection surface 31, may be configured in the collection surface 31, for example, in the embodiment roughening process only on a partial area along the scan direction.

如图13所示,也可以用多个扇形部件32构成收集部件30。 13, may be configured with a plurality of sector members 32 collecting member 30. 在图13中,扇形部件32是侧面看大致三角形,与基板P相对的边(下边) 随着相对投影区域AR1向外侧而向上方倾斜。 In Figure 13, the sector member 32 is generally triangular in side view, opposite sides of the substrate P (lower side) with respect to the projection area AR1 inclined outwardly upwardly. 而后,这多个扇形部件32在回收部件22的外侧面上,使其长度方向向着外侧安装成放射状。 Then, the plurality of fan-shaped member 32 on the outer surface of the recovery member 22, is mounted so that the longitudinal direction toward the outside radially. 在此,多个扇形部件32之间隔开,在各扇形部件32之间形成空间部分33。 Here, a plurality of segments 32 spaced between the members, the space portion 33 is formed between the fan member 32. 用回收部件22不能彻底回收的液体1通过靠表面张力捕捉扇形部件32之间的空间部分33 ,防止液体1流到基板P的外部。 It can not be completely recovered by the liquid recovery member 221 captured by the surface tension against the sector portion 32 between the space member 33, to prevent the liquid 1 to the outside of the substrate P.

进而,多个扇形部件32可以以等间隔设置,也可以以不等间隔设置。 Further, the plurality of fin members 32 may be provided at equal intervals, you may be disposed at unequal intervals. 例如,也可以把沿着扫描方向的位置设置的扇形部件32的间隔设定成比被设置在沿着非扫描方向的位置设置的扇形部件32的间隔小。 For example, the spacer may be the position of the sector member disposed along the scan direction 32 is set smaller than the sector member are disposed along the non-scanning direction of the set position of the small gap 32. 此外,多个扇形部件32各自的长度(放射方向的大小)可以相同,被设置在沿着扫描方向的位置的扇形部件32的长度也可以比被设置在此外的位置上的扇形部件32长。 In addition, the length 32 of each of the plurality of fin members (the size in the radial direction) may be the same, may be provided in addition ratio is set at the position of the sector member 32 along the longitudinal length of the sector member 32, the position of the scanning direction. 此外,在收集部件30中,也可以用扇形部件构成一部分的区域,用收集面构成剩下的区域。 Further, the collecting member 30 may be a fan-shaped member constituting a part of the region, constituting the collector surface with the remaining area. 进而其构成也可以是,在参照图4等说明的收集面31上安装扇形部件32。 Further it may be configured that the mounting member 32 on the sector in the trap surface 31 described with reference to FIG. 4 and the like. 进而理想的是,对于扇形部件32的表面,也实施提高和液体l的亲和性的亲液化处理。 Further desirably, the surface for the sector member 32, but also the affinity embodiment lyophilic process and improve the liquid l.

在上述各实施方式中,当对收集面31 (或者扇形部件32)实施亲液化处理的情况下,也可以使该收集面31具有亲液性分布。 In the above embodiment, a case where the trap surface 31 (or the fin members 32) lyophilic process embodiment, may make the collecting surface 31 having a lyophilic distribution. 换句话说,可以通过实施表面处理使对于表面处理的面上的多个区域的液体接触角是各自不同的值。 In other words, by performing a surface treatment liquid contact angle for a plurality of regions of the surface of the surface treatment are different respective values. 例如,在收集面31中也可以相对投影区域AR1使外侧的一部分区域的亲液性相对内侧区域降低。 For example, in the collection surface 31 relative to the projection area AR1 may be that the lyophilic portion of the inner region relative the outer region is reduced. 进而其构成也可以是,不需要亲液化处理收集面31的全部,例如只亲液化处理沿着扫描方向的一部分的区域。 May be further configured, it does not require all of the trap surface lyophilic process 31, for example, only a portion of the lyophilic processed areas along the scan direction.

进而,在上述实施方式中,说明了对收集面31实施亲液化处理, 但在液体供给机构10的液体回收部20中对液体1流过的流路的表面也可以实施亲水化处理。 Further, in the above-described embodiment, the lyophilic process described embodiment of the trap surface 31, but the liquid recovery portion 20 of the liquid supply mechanism 10 on the surface of the liquid passage 1 flows may be hydrophilic treatment. 特别是通过对液体回收机构20的回收部件22实施亲液化处理,可以平滑地进行液体回收。 In particular embodiments by 22 lyophilic treatment recovery member of the liquid recovery mechanism 20, the liquid can be recovered smoothly. 或者也可以对包含液体1接触的镜筒PK的投影光学系统PL的前端部分实施亲液化处理。 Or lyophilic treatment may be implemented on the front end of the barrel PK contacts the liquid 1 comprising the projection optical system PL. 进而,当在光学元件2上形成薄膜的情况下,因为被配置在曝光光束EL的光路上,所以用相对曝光光束EL具有透过性的材料形成,其膜厚度也被设置成可以透过曝光光束EL的程度。 Further, in the case of a thin film formed on the optical element 2, because the exposure light beam EL disposed on the optical path, so that a relative exposure light beam EL having a transmitting material is formed, the film thickness can also be provided through exposure degree beam EL.

此外,用于表面处理的薄膜是单层膜,也可以是由多层组成的膜。 Further, for the surface treatment of the film is a monolayer film, or may be a multilayer film composed thereof. 此外,其形成材料如果是金属、金属化合物以及有机物等可以发挥所希望的性能的材料,则也可以使用任意的材料。 Further, if a material is formed of metal, metal compounds and other organic material can exhibit a desired performance, then any material may be used.

此外,在基板P的表面上也可以和液体1的亲和性一致地实施表面处理。 Further, on the surface of the substrate P may be an affinity for the liquid and the surface treatment uniformly. 进而,如上所述,收集面31的液体亲和性理想的是比基板P 表面的液体亲和性还高。 Further, as described above, preferably the liquid affinity of the trap surface 31 is higher than the surface of the substrate P liquid affinity.

以下,参照图14说明本发明的液体供给机构10以及液体回收机构20的另一实施方式。 Hereinafter, with reference to FIG. 14 illustrates another embodiment of the present invention, the liquid supply mechanism 10 and the liquid recovery mechanism 20.

在图14中,液体供给机构10包括:第1液体供给部件11以及第2液体供给部件12;相对投影区域AR1被设置在扫描方向一侧(-X侧)上的第1供给部件13;被设置在另一侧(十X侧)上的第2供给部件14;连接第1液体供给部11和第1供给部件13的第1供给管41;连接第2液体供给部件12和第2供给部件14的第2供给管42。 In Figure 14, the liquid supply mechanism 10 comprises: a first liquid supply member 11 and the second liquid supply member 12; the projection area AR1 is disposed opposite the first supply member 13 on the (-X side) in the scanning direction side; the second supply means disposed at the other side (+ X side) 14; connecting the first liquid supply portion 11 and the first feeding member 13 of the first tube 41; the connection member 12 and the second supply means supplying the second liquid 14. the second supply pipe 42. 第1、笫2供给部件13、 14和参照图2以及图3说明的实施方式一样, 分别具备内部流路13H、14H和被形成在其下端部分上的供给口13A、 14A,被形成为平面看大致圆弧形状。 1, Zi and second supply members 13, 14 and 2 and the embodiment illustrated in Figure 3 with reference to FIG like are provided with an internal flow passage 13H, 14H and supply ports are formed at the lower end portion 13A, 14A, is formed as a flat See generally arcuate shape.

连接第1供给部11和第1供给部件13的第1供给管41具有直管部43、缝隙管部44。 First supply portion connected to the first supply member 11 and the first supply pipe 41 has a straight tube portion 13 is 43, the slit tube section 44. 直管部43的一端部分与笫1液体供给部11 连接,直管部43的另一端部分与缝隙管部44的一端连接。 One end portion of the straight tube portion 43 and the liquid supply Zi connecting portion 11, the other end portion of the straight tube portion 43 is connected to one end of the slit tube section 44. 此外,缝隙管部44的另一端与第1供给部件13的内部流路13H的上端部分连接。 Further, the upper end portion of the other end of the slit tube section 44 is supplied to a first internal flow passage 13H of the connecting member 13. 缝隙管部44的一端部分被形成为和直管部43大致同样大小,另一端被形成为和第1供给管部件13的上端部分大小大致相同。 One end portion of the slit tube section 44 is formed substantially the same size, and the other end straight tube portion 43 is formed as a pipe and the first supply member 13 is substantially the same size of the upper end portion. 而后, 缝隙管部44从一端部分向另一端部分在水平方向上逐渐扩大形成为平面看大致三角形形状,被形成在缝隙部44上的缝隙状的内部流路44H从一端部分向另一端部分形成为在水平方向上逐渐扩大。 Then, the slit tube section 44 from one end to the other end portion is gradually expanded in the horizontal direction is formed as a plan view a substantially triangular shape, it is formed 44H formed from one end portion to the other end portion of the slit-shaped internal flow path 44 of the slit portion to gradually expand in the horizontal direction.

连接第2液体供给部12和第2液体供给部14的第2供给管42 具有直管部45;缝隙管部46。 Connecting the second liquid supply section 12 and the second liquid supply section 14 is supplied to the second tube 42 has a straight tube portion 45; slit tube section 46. 直管部45的一端部分与第2液体供给部12连接,直管部45的另一端与缝隙管46的一端部分连接。 One end of the straight tube portion and the second liquid supply portion 12 of the connecting portion 45, one end straight tube portion and the other end of the slit portion 45 of the tube 46 is connected. 此外, 缝隙管部46的另一端与第2供给部件14的内部流路14H的上端部分连接。 Further, the upper end portion of the slit tube section 46 the other end of the internal flow path and the second supply member 14 is connected to 14H. 缝隙管部46的一端部分和直管部45形成为大小大致相同,另一端部分和第2供给部件14的上端部分形成大致大小相同。 The slit tube section 46 and the end portion of the straight tube portion 45 is substantially the same size, the other end portion of the upper end portion and a second supply member 14 is formed substantially the same size. 而后,缝隙管部46从一端部分向另一端部分形成为在水平缝隙上逐渐扩大那样的平面看大致三角形形状,被形成在缝隙管部46上的缝隙状的内部流路46H被形成从一端部分向另一端部分在水平方向上逐渐扩大。 Then, the slit tube section 46 is formed from one end portion to the other end portion to see a substantially triangular shape is gradually enlarged as a plane in the horizontal slit is formed 46H are formed from one end portion inside the flow passage slit-shaped on 46 slit tube section gradually expanded in the horizontal direction toward the other end portion.

液体回收机构20包括:被形成在平面看环状的回收部件22;多个液体回收部件61 ~ 64;连接回收部件22和液体回收部61 ~ 64的各自的多根回收管71~74。 The liquid recovery mechanism 20 includes: a plan view is formed in the annular recovery member 22; a plurality of liquid recovery members 61 to 64; and a liquid recovery unit 22 is connected 61 to the recovery member 64 of each of the plurality of recovery tubes 71 to 74. 在本实施方式中,液体回收部用第1~第4 液体回收部61~64的4个构成,如与之对应那样回收管用笫1~第4回收管71~74的4个构成。 In the present embodiment, the liquid recovery unit with the first to fourth liquid recovery section 4 constituting 61 to 64, such as the recovery pipe Zi corresponding to fourth recovery tubes 71 to 74 4 configuration. 回收部件22和参照图2以及图3说明的实施方式一样,包括环状的内部流路22H、被形成在其下端部分上的回收口22A。 2 and the recovery member 22 and the third embodiment as described with reference to FIGS, includes an annular internal flow passage 22H, which is formed on the lower end portion of the recovery port 22A. 进而,在图14所示的实施方式的内部流路22H上不设置隔断部件(23)。 Further, without providing the partition member (23) on the internal flow passage 22H of the embodiment 14 shown in FIG. 液体回收机构20的回收部件22被配置在液体供给机构10的笫1、第2供给部件13、 14的外侧上。 Recovery member 20 of the liquid recovery mechanism 22 is disposed on the outside of a sleeping mat, the second liquid supply mechanism 10 supplying members 13, 14.

在多个液体回收部件中连接第1液体回收部61和回收部件22的第1回收管71具有直管部75、缝隙管部76。 Connecting the first liquid recovery member 61 and recovered in a plurality of the liquid recovery member 22 of the first recovery pipe 71 has a straight tube portion 75, the slit tube section 76. 直管部75的一端部分与第1液体回收部61连接,直管部75的另一端与缝隙管部件76的另一端连接。 One end portion of the straight tube portion 75 and the first liquid recovery portion 61 is connected, the other end of the straight pipe portion 75 and the other end of the slit tube section 76 is connected. 此外,缝隙管部76的另一端与回收部件22的内部流路22H 的上端部分连接。 Further, the upper end portion of the other end of the slit tube section and the recovery flow passage 76 of the inner member 22 is connected to 22H. 在此,缝隙管部76的一端部分被形成为和直管部75大小大致相同,另一方面,缝隙管部76的另一端被形成为圓环状的回收部件22的上端部分的大致1/4的大小。 Here, one end portion of the slit tube section 76 is formed to be substantially the same and the size of the straight tube portion 75, on the other hand, the other end of the slit tube section 76 is formed in an upper end portion of a substantially annular recovery member 22 / size 4. 而后,缝隙管部76如从一端部分向另一端部分在水平方向上逐渐扩大那样被形成为平面看大致三角形形状,被形成在缝隙管部76上的缝隙状的内部流路76H 被形成为从一端部分向另一端部分逐渐扩大。 Then, the slit tube section 76 as described is formed from an end portion is gradually expanded in the horizontal direction toward the other end part of the plan view a substantially triangular shape, a slit-shaped internal flow path is formed in the slit tube section 76 is 76H are formed from gradually enlarged end portion to the other end portion.

同样,连接第2液体回收部件62和回收部件22的第2回收管72 具有直管部77、缝隙管部78,缝隙管部78的一端部分被形成为和直管部77大致同样大小,另一方面,缝隙管部78的另一端被形成为圆环状的回收部件22的上端部分的大致l/4的大小。 Similarly, connected to the second liquid recovery member 62 and the recovery member second recovery tube 22 of 72 has a straight tube portion 77, the slit tube section 78, an end portion of the slit tube section 78 is formed 77 substantially the same size and the straight tube portion, the other in one aspect, the other end of the slit tube section 78 is formed to an upper end portion of the annular recovery member 22 of substantially l / 4 size. 而后,缝隙管部78 被形成为平面看大致三角形形状,被形成在缝隙管部78上的缝隙管状的内部流路78H从一端部分向另一端被形成为在水平方向上逐渐扩大。 Then, the slit tube section 78 is formed as a substantially triangular shape in plan view, it is formed inside a slit of the tubular flow passage 78H is formed to be gradually expanded in the horizontal direction from one end portion to the other end in the slit tube section 78. 此外,连接第3液体回收部63的回收部件22的第3回收管73 具有直管部79、缝隙管部80,连接第4液体回收管部64和回收部件22的第4回收管74具有直管部81和缝隙管部82。 Further, the connection recovery member of the liquid recovery portion 63 of the third recovery 22 of tube 73 has a straight tube portion 79, the slit tube section 80, connected to the fourth liquid recovery pipe portion 64 and the recovery member fourth recovery 22 of tube 74 has a straight tube portion 81 and the slit tube section 82. 而后,缝隙管部80、 82的另一端分别被形成为圆环状的回收部件22的上端部分的大致l/4的大小。 Then, the slit tube section 80, the other end 82 are respectively formed in a size substantially annular recovery member 22 of the upper end portion of the l / 4. 而后,缝隙管部80、 82的各自被形成为平面看大致三角形形状,被形成在缝隙管80、 82上的缝隙状的内部流路80H、 82H 的各自被形成为从一端部分向另一端部分在水平缝隙上逐渐扩大。 Then, the slit tube section 80, 82 are each formed as a plan view a substantially triangular shape, is formed in the slit tube 80, a slit-shaped internal flow passage 80H in the 82, each formed 82H is from one end portion to the other end portion gradually expanded in the horizontal gap.

在构成液体供给机构10以及液体回收机构20的部件中液体流通的部件,具体地说供给管41、 42以及回收管71~74如上所述,可以用聚四氟乙烯等合成树脂形成,例如也可以用不锈钢和铝等的金属形成。 Members constituting the liquid flow in the liquid supply mechanism 10 and the liquid recovery mechanism 20 in the component, specifically the supply tubes 41, 42 and the recovery tubes 71 to 74 described above, may be formed of synthetic resin such as polytetrafluoroethylene, also e.g. It may be formed of a metal such as stainless steel and aluminum. 在本实施方式中,液体流通的部件是金属制。 In the present embodiment, the liquid circulation means is made of metal. 特别是把在液体供给机构10以及液体回收机构20中构成液体流路的部件设置成铝,因为铝和液体(水)的接触角小,所以可以平滑地流通液体。 In particular, the liquid supply mechanism 10 and the liquid recovery mechanism 20 in the liquid flow path constituting member is set to aluminum, aluminum, and because the small liquid (water) contact angle, it is possible to smoothly circulate the liquid. 此外,虽然在图14中未图示,但在液体回'收机构20的回收部件的周围上和前面的实施方式一样设置收集郜件30。 Furthermore, although not shown in FIG. 14, but the liquid back 'and the previous embodiments is provided to collect as Gao member 30 around the recovery member of the receiving means 20.

以下,说明液体供给机构10以及液体回收机构20的动作。 Hereinafter, the operation of the liquid supply mechanism 10 and the liquid recovery mechanism 20. 为了形成液浸区域(AR2 ),控制装置CONT驱动液体供给机构10的第1 、 第2液体供给部11、 12的各自。 In order to form a liquid immersion region (AR2 of), the control unit CONT drives the liquid supply mechanism 10, the second liquid supply portions 11, 12 of each. 从第1、第2液体供给部11、 12各自送出的液体l在使第1、第2供给管41、 42的各自流通后,经由第1、第2供给部件13、 14提供给基板P上。 From the first and second liquid supply portions 11, 12 are each fed liquid l in the first, second supply pipe 41, the respective flow 42, is supplied to the substrate P via the first and second supply members 13, 14 . 在此,从第l液体供给部件11送出的液体1在第1供给管41的直管部43上流通后,通过在缝隙管44上流通在水平方向(横方向,)上扩散,在缝隙管部44的另一端上,在扩大到第1供给部件13的内部流路13H(供给口13A)的大致Y轴方向的大小后,经由第l供给部件13的内部流路13H提供给基板P上。 After Circulation 43 straight tube portion in this case, sent from the l liquid supply member 11 the liquid 1 in the first supply pipe 41, through the flow in the slit tube 44 diffusion in the horizontal direction (lateral direction), the slit tube the other end portion 44, and after the size of the extended to the internal flow passage of the first feed member 13 is 13H (supply port 13A) is substantially Y-axis direction, is supplied to the substrate P via the internal flow passage of l supplying member 13 13H . 由此,液体l在把Y轴方向作为长度方向的大致圆弧形状的供给口13A的各位置上以大致均匀的液体供给量提供给基板P上。 Thus, the liquid l in the position of the supply port 13A is substantially arc-shaped Y-axis direction as the longitudinal direction on the substrate P is supplied to a substantially uniform supply amount of the liquid. 同样,从笫2液体供给部12送出的液体1也在流过第2供给管42的直管部45后,在经由缝隙管46在水平方向(横方向)上扩大后,因为提供给第2供给部件14,所以在供给口14A的各位置上以大致均匀的液体供给量提供给基板P上。 Similarly, the liquid from the second liquid supply portion 12 Zi fed 1 also flows through the second straight tube portion 42 of the supply pipe 45, through the slit in the tube 46 to expand in the horizontal direction (lateral direction), as supplied to the second supply member 14, so that at each position of the supply port 14A provided on the substrate P to a substantially uniform supply amount of the liquid.

即,在参照图2以及图3说明的实施方式中,因为供给管11A全部用直管构成,所以从该直管的供给管IIA向把Y轴方向作为长度方向的第l供给部件13直接提供液体,则由于该流路面积的不同,因而在第1供给部件13的供给口13A的长度方向的中央部分、即在供给管11A的正下位置上的液体供给量与在供给口13A的长度方向端部、即在和供给管11A隔开的位置上的液体供给量之间产生差,出现液体供给量在供给口13A的各位置上不均匀的现象。 That is, in the embodiment 2 and illustrated in Figure 3 with reference to the drawings, since the supply pipe 11A all straight tubes, so that to the Y-axis direction as the longitudinal direction of the l-supply member 13 is provided directly from the supply tube IIA of the straight pipe liquid, due to the difference of the flow passage area, and therefore the central portion in the longitudinal direction of the supply port 13A of the first supply member 13, i.e., the liquid supply amount immediately below position of the supply pipe 11A on the length of the supply port 13A. direction end portion, i.e., a difference between the liquid supply amount and the supply tube 11A in spaced positions, disposed in the liquid supply amount at each position on the supply port 13A of the phenomenon of uneven. 具体地说,在供给口13A的长度方向中央部分(供给管11的正下的位置)中的液体供给量比在 Specifically, the liquid supply (positive supply position of the lower tube 11) in a central portion of the longitudinal direction of the supply port 13A in the ratio

供给口13A的长度方向端部(和供给管IIA隔开的位置)中的液体供给量多,产生不能均匀提供液体,液浸区域AR2不均匀的可能性。 The supply port 13A in the longitudinal direction end portions (and the supply tube location spaced IIA) the liquid supply amount is large, it can not be uniformly provided to produce a liquid, the possibility of non-uniform liquid immersion area AR2. 但是,在把Y轴方向设置为长度方向的第l供给部件13 (供给口13A) 上在由笫1液体供给部11提供液体1时,供给管41的至少一部分的流路大小与第l供给部件13的大小相应地设定,如本实施方式所示, 通过把供给管41的一部分设置成向着第1供给部件13具有在水平方向逐渐扩大的喇叭形状的内部流路44H的缝隙管部44,可以在把Y 轴方向作为长度方向的第i供给部件13的供给口13A的各位置中用大致均勻的液体供给量向基板P上提供液体1。 However, when provided by the sleeping mat liquid supply portion 11 the liquid 1, the flow channel size of at least a portion of the supply pipe 41 and the l supplied on the Y-axis direction to the longitudinal direction of the l-supply member 13 (supply port 13A) accordingly, the size setting member 13, as shown in this embodiment, the portion of the supply pipe 41 is disposed toward the first supply member 13 has a slit tube section 44 in the horizontal direction inside trumpet shape gradually expanding the flow passage 44H , may be substantially uniformly provide the liquid supply amount of the liquid 1 onto the substrate P in the position of the supply port 13A of the supply member i as the Y-axis direction with the longitudinal direction 13. 同样,从第2液体供给部12送出的液体1也经由第2供给管42以及第2供给部件14均匀地提供给基板P上。 Similarly, 14 uniformly provided on the substrate P from the liquid to the second liquid supply portion 12 is also fed via a second supply pipe 42 and the second supply member.

此外,控制装置CONT驱动液体回收机构20的第1~第4液体回收部61〜64的各自,经由回收部件22以及第1~第4回收管71~74 的各自回收基板P上的液体1。 Further, the control unit CONT drives the liquid recovery mechanism 20 of the first to fourth liquid recovery portions each 61~64 via the recovery member 22 and the first to fourth recovery tubes the liquid on the substrate P are each 1 recovered 71 to 74. 第1~第4液体回收部件61~64的各自通过经由第1~第4回收管71〜74吸引基板P上的液体1回收。 The first to fourth liquid recovery member 61 to 64 are each a recovery liquid by suction onto the substrate P via the first to fourth recovery tubes 71~74. 而后,基板P上的液体1在圆环状的回收部件22的回收口22A的各位置中以大致均匀的回收量(回收力)回收。 Then, the liquid on the substrate P 1 is recovered in a substantially uniform recovery amount (recovery force) at each position of the annular recovery port 22A of the recovery member 22 in.

即,和上述一样,如果直接连接直管的回收管和回收部件22,则由于其流路面积不同,在回收口22A的各位置中的液体回收量(回收力)中产生差异,产生液体回收量在回收口22A的各位置上不均匀的情况。 That same manner as above, if directly attached to the recovery tube and the recovery means a straight pipe 22, due to the difference of its flow passage area, a difference in the liquid recovery amount (recovery force) at each position of the recovery port 22A of the generated liquid recovery the amount of the respective positions of the recovery port 22A on the not uniform. 例如,在回收管的正下的位置中的液体回收量比在此外的位置上的液体供给量多,不能均匀地回收液体,产生液浸区域AR2不均匀的可能性。 For example, the liquid recovery ratio at a position in the positive recovery pipe in the addition amount of the liquid supply positions and are unable to recover the liquid uniformly, the possibility of non-uniform liquid immersion area AR2. 但是,如本实施方式所示,通过把回收管的一部分设置成具有向着回收部件22在水平方向上逐渐扩大的的喇叭形状的内部流路的缝隙管部76、 78、 80、 82,在圆环状的回收部件22的回收口22A 的各位置上可以以大致均匀的液体回收量回收基板P上的液体。 However, as in this embodiment, through a portion of the recovery pipe provided with a slit tube section gradually expanding toward the recovery member 22 in the horizontal direction of the trumpet-shaped internal flow passage 76, 78, 80, 82, in a round annular recovery member 22 port 22A on each position can be recovered to the liquid on the substrate P substantially uniform liquid recovery amount.

这样,在供给口13A、 14A各自的各位置上在可以均匀提供液体的同时,因为可以在回收口22A的各位置上均匀回收,所以可以形成 Thus, the supply ports 13A, 14A of each of the respective positions on the liquid while providing uniformly because it can be recovered uniformly at the respective positions of the recovery port 22A, can be formed

40均匀的液浸区域AR2。 40 uniform liquid immersion area AR2.

在参照图14说明的实施方式中,缝隙管部44 (46)的内部流路44H(46H)是空洞形状,如图15所示,在构成液体供给机构10的供给管41 (42)的一部分的缝隙管部44 (46)的内部流路44H ( 46H ) 上,沿着液体l的流通方向(从缝隙管部的一端部分向另一端部分) 可以设置多个扇形部件85。 In the embodiment described with reference to FIG. 14, the slit tube section 44 (46) internal flow passage 44H (46H) is a hollow shape, shown in Figure 15, the supply of the liquid supply mechanism 10 constituting a part 41 (42) of the tube the slit tube section 44 (46) on the internal flow passage 44H (46H), along the flow direction of the liquid l (from one end portion to the other end portion of the slit tube section) a plurality of fan-shaped member 85 may be provided. 由此,可以在整流液体l后经由供给部件13 (14)向基板P上提供。 Thereby, 13 (14) provided on the substrate P via the rectifier l liquid supply member. 进而,也可以把该扇形部件85延伸到供给部件13 (14)的内部流路13H (14H)。 Further, the sector may be the member 85 extends into the 13 (14) internal flow passage 13H supplying means (14H). 此外,在构成液体供给机构20的回收管的缝隙管部76、 78、 80、 82的内部流路76H、 78H、 80H、 82H的各自上设置扇形部件85。 In addition, the sector member disposed slit tube section recovery pipe 20 constituting the liquid supply mechanism 76, 78, the internal flow path 80, 82, 76H, 78H, 80H, 82H of the respective 85.

进而,例如在基板P高速扫描移动的情况等下,考虑即使在图14所示的实施方式中,也不能彻底回收基板P上的液体1,基板P上的液体l流出到回收部件22的外侧的情况。 Further, for example, in the case of other high-speed scanning movement of the substrate P, even considering the outer 14 in the embodiment shown in the drawing, can not recover all of the liquid on the substrate P 1, l liquid on the substrate P flows to the recovery member 22 Case. 这种情况下,可以把沿着基板P的扫描方向(X轴方向)的位置设置的平面看大致三角形形状的缝隙管部44、 46的下面,代替收集部件30作为收集面使用。 In this case, the position of the plane along the substrate P may be a scanning direction (X axis direction) is disposed below the slit tube section to see a substantially triangular shape 44, 46, instead of the collection member 30 is used as a collecting surface.

进而,在本实施方式中,其构成是对于1个回收部件22连接多条回收管71~74,而其构成也可以是如与多条回收管71~74对应那样把多个回收部件(回收口)接近基板P设置。 Further, in the present embodiment, which is configured for the recovery member 22 is connected a plurality of recovery tubes 71 to 74, and may be configured as corresponding to the plurality of recovery tubes 71 to 74 as a plurality of recovery members (recovery mouth) disposed close to the substrate P.

以下,参照图16~图19说明本发明的液体供给机构IO以及液体回收机构20的另一实施方式。 Hereinafter, with reference to FIG. 16 to FIG. 19 illustrates another embodiment of the present invention, the liquid supply mechanism and the liquid recovery mechanism 20 IO's.

图16是展示本实施方式的液体供给机构(10)以及液体回收机构(20 )的斜视图。 FIG 16 is a perspective view showing the liquid supply mechanism according to the present embodiment (10) and the liquid recovery mechanism (20) in FIG. 在图16中,液体供给机构(10 )包括:第1、第2液体供给部11、 12;与第l、第2液体供给部11、 12的各自连接的第1、第2供给管41、 42。 In FIG. 16, the liquid supply mechanism (10) comprising: first and second liquid supply portions 11, 12; and the second L, the second liquid supply portion 11, the first and second supply pipe 41 are each connected to 12, 42. 液体回收机构(20 )包括:第1 ~第4液体回收部61〜64;与第1~第4液体回收部61~64的各自连接的第1~ 第4回收管71~74。 The liquid recovery mechanism (20) comprising: first to fourth liquid recovery units 61~64; the first to fourth recovery tubes 61 to 64 are each connected to the first to fourth liquid recovery units 71 to 74. 而后,第1、第4供给管41、 42的各自的一端与第1、第2液体供给部11、 12连接,另一端与用流路形成部件卯形成的以后叙述的供给流路连接。 Then, the first, the fourth supply tube 41, 42 is connected to one end of each of the first and second liquid supply portions 11, 12, the other end with a supply passage formed in the passage member d will be described later is connected. 第1~第4回收管71~74的各自的一端与第1~第4液体回收部件61〜64连接,另一端与用流路形成部件90形成的以后叙述的回收流路连接。 The first to fourth recovery tubes 71 to 74 one end of each connected to the first to fourth liquid recovery member 61~64, the other end of the recovery flow passage forming member 90 described later is connected to the flow path forming.

流路形成部件90包括:第1部件91;被配置在笫1部件91的上部的第2部件92;被配置在第2部件92的上部的第3部件93。 The flow path forming member 90 includes: a first member 91; Zi is disposed at the upper portion of the second member 91 of member 92; the third member is disposed in the upper portion 93 of the second member 92. 流路形成部件90被配置成包围投影光学系统PL,构成该流路形成部件卯的第1~第3部件91〜93的各自是同一尺寸矩形的板状部件,具有可以在其中央部分上配置投影光学系统PL的孔部分91A〜93A。 Flow path forming member 90 is arranged to surround the projection optical system PL, constituting the flow path is formed in each rectangular plate member of the same size d of the first member to the third member 91~93 having may be disposed on a central portion thereof the projection optical system PL hole portion 91A~93A. 孔部分91A〜93A被形成为相互连通。 91A~93A hole portion is formed to communicate with each other. 此外,第1、第2供给管41、 42在第1 ~第3部件中与最上端的第3部件93连接,第1 ~第4回收管71 ~ 74与中段的第2部件92连接。 Further, the first and second supply pipes 41, 42 connected to the third member 93 at the uppermost end of the first to third components, 71 to 74 connected to the second member 92 in the middle of the first to fourth recovery tubes.

图17是展示在第1 ~第3部件中被配置在最下段上的第1部件91的斜视图。 FIG 17 is a perspective view showing a first member 91 in the first to third member is disposed on the lowermost stage. 第l部件91包括:被形成在投影光学系统PL的-X侧上,形成向基板1上提供液体1的供给口的第1供给孔部94A;被形成在投影光学系统PL的十X侧上,形成向基板1上提供液体的供给口的第2供给孔部95A。 The first member 91 comprises a l: is formed on the -X side of the projection optical system PL, the first supply hole portion provided in the liquid supply port 94A is formed onto the substrate 1; is formed on the projection optical system PL + X side forming a liquid supply port provided on the substrate 1 to the second supply hole portion 95A. 第1供给孔部94A以及第2供给孔部95A的各自平面看被形成为大致圆弧状。 First supply hole portion 94A and the respective planes second supply hole portion 95A is formed as viewed substantially arc shape. 进而,笫1部件91包括:被形成在投影光学系统PL的-X侧上,形成回收基板P上液体的回收口的第l回收孔部96A;被形成投影光学系统PL的-Y侧上的,形成回收基板P上的液体的回收口的第2回收孔部97A;被形成在投影光学系统PL的+ X侧上,形成回收基板P上的液体的回收口的第3回收孔部98A;被形成在投影光学系统PL的+Y侧上,形成回收基板P上的液体的回收口的第4回收孔部99A。 Further, Zi member 91 comprising: a is formed on the -X side of the projection optical system PL, the substrate P is formed of recycling l recovery hole 96A on the liquid recovery port; the -Y side of the projection optical system PL is formed of the second recovery hole recovery port formed in the liquid on the recovery of the substrate P 97A; third recovery hole portion is formed in the + X side of the projection optical system PL, forming the recovery port of the liquid on the recovery of the substrate P 98A; a fourth recovery hole portion is formed on the + Y side of the projection optical system PL, the liquid recovery port is formed on the substrate P is recovered 99A. 第1~第4回收孔部96A~99A的各自被形成为平面看大致圆弧形状,沿着投影光学系统PL的周围被i更置成大致等间隔。 The first to fourth recovery hole 96A ~ 99A are each formed in a substantially arc shape look flat, i is set to more along the periphery of the projection optical system PL substantially equal intervals. 此外,回收孔部96A ~ 99A的各自与供给孔部94A、 95A相比相对投影光学系统PL被设置在外侧。 Further, each of the recovery hole supply holes 94A 96A ~ 99A is, compared to the projection optical system 95A is provided on the outside of PL.

图18是展示在第1 ~第3部件中被配置在中段上的第2部件92 的斜视图,图18 (a)是从上侧看的斜视图,图18(b)是从下侧看的斜视图。 FIG 18 is a view showing a second member in the first to third members are arranged on the middle of the perspective of FIG. 92, FIG. 18 (a) is from the upper half side perspective view, FIG. 18 (b) is from the lower side to see the oblique view. 第2部件92包括:被形成在投影光学系统PL的-X侧上, 与第1部件91的第1供给孔94A连接的第3供给孔部94B;被形成在投影光学系统PL的+ X侧上,与笫1部件91的笫2供给孔95A连接的第4供给孔部95B。 The second member 92 comprises: is formed in the -X side of the projection optical system PL, the supply holes 3 of the first member and the first supply hole 91 is connected 94A 94B; is formed on the + X side of the projection optical system PL. , the supply holes 2 and Zi Zi member 91 according to a fourth supply holes 95B 95A connected. 第3、第4供给孔94B、 95B各自的形状以及大小与第1、第2供给孔部94A、 95A对应。 Third, the fourth supply hole 94B, 95B and the shape and size of each of the first and second supply hole portions 94A, 95A corresponds.

进而,第2部件92包括:在其下面被形成在投影光学系统PL 的-X侧上,与第1部件91的第1回收孔部96A连接的第1回收沟部96B;被形成在投影光学系统PL的-Y侧上,与笫1部件91的笫2回收孔97A连接的第2回收沟部97B;被形成在投影光学系统PL 的十X侧上,与笫1部件91的第3回收孔部98A连接的第3回收沟部98B;被形成在投影光学系统PL的+Y侧上,与第1部件91的第4回收孔部99A连接的第4回收沟部99B。 Further, the second member 92 include: formed thereunder in the -X side of the projection optical system PL, the first member of the first recovery hole 96A of the first recovery groove 96B 91 is connected; is formed in the projection optical the second recovery groove portion of the -Y side of the system PL, and Zi Zi 2 recovery hole 97A of the connecting member 91 to 97B; is formed on the + X side of the projection optical system PL, and Zi member 91 of the third recovery a third recovery groove 98B connected to the hole portion 98A; is formed on the + Y side of the projection optical system PL, the fourth recovery groove portion connected to the fourth recovery hole 99A of the first member 91 99B. 第1~第4回收沟部96B ~ 99B的各自如与第1~第4回收孔部96A〜99A的形状以及大小对应那样被形成为平面看大致圆弧形状,沿着投影光学系统PL的周围大致等间隔设置。 The first to fourth recovery groove portion each as the first to fourth recovery hole corresponding to the shape and the size 96A~99A 96B ~ 99B are formed as a substantially arc shape as viewed in plan, along the circumference of the projection optical system PL disposed at substantially equal intervals. 此外,第1回收管71和第2回收沟部96B经由喇叭形状沟部96T连接。 Further, the first recovery pipe 71 and the second recovery groove 96B via a tapered groove 96T. 喇叭形状沟部96T被形成为从相对第1回收管71的连接部向第1回收沟部96B在水平方向上逐渐扩大。 96T tapered groove portion 96B is formed to gradually expand in the horizontal direction from the connecting portion relative to the first recovery tube 71 toward the first recovery groove. 同样,第2 回收管72和第2回收沟部97B经由喇叭形状沟部97T连接,第3回收管73和第3回收沟部98B经由喇叭形状沟部98T连接,第4回收管74和笫4回收沟部99B经由喇叭形状沟部99T连接。 Similarly, the second recovery tube and the second recovery groove 72 97B via a tapered groove 97T is connected to the third recovery tube 73 and the third recovery groove 98B via a tapered groove 98T is connected to the fourth recovery tube 74 and Zi 4 recovery groove 99B via a tapered groove 99T.

图19是展示在第1 ~第3部件中被配置在最上段上的第3部件93的斜视图,图19 (a)是从上侧看的斜视图,图19 (b)是从下侧看的斜视图。 FIG 19 is a third member of the first to third members are arranged on the uppermost section of the perspective of FIG. 93, FIG. 19 (a) is from the upper half side perspective view, FIG. 19 (b) is from the lower side look oblique view. 第3部件93包括:在其下面形成在投影光学系统PL的-X侧上,与笫2部件92的第3供给孔部94B连接的第1供给沟部94C;被形成在投影光学系统PL的+乂侧上,与笫2部件92的第4 供给孔95B连接的第2供给沟部95C。 The third member 93 comprising: supplying a first groove portion connected to the third supply hole portion 92 of the member 2 Zi 94B 94C is formed on its underside in the -X side of the projection optical system PL; is formed in the projection optical system PL + qe upper side, is supplied with the second groove member 4 2 Zi supply hole 92 is connected to 95B 95C. 第1、第2供给沟部94C、 95C 各自的形状以及大小如与第3、第4供给孔部94B、 95B(进而第l、 第2供给孔94A、 95A)对应那样被形成为平面看大致圆弧形状。 First and second supply groove 94C, 95C of each shape and size as corresponding to the third and fourth supply holes 94B, 95B (and thus of the L, the second supply holes 94A, 95A) that is formed as a planar view substantially an arc shape. 此夕卜,第l供给管41和第l供给沟部94C经由喇叭形状沟部94T连接。 Bu this evening, the l l supply pipe 41 and the second supply groove 94C via a tapered groove 94T. 喇叭形状沟部94T被形成为从与第1供给管41相对的连接部向第1 供给沟部94C在水平方向上逐渐扩大。 A tapered groove 94T is formed from 41 to 94C opposing gradually expanded in the horizontal direction and the first supply pipe portion connected to the first supply groove. 同样,第2供给管42和第2 供给沟部95C经由带状沟部95T连接。 Similarly, the second supply pipe 42 and the second supply groove 95C via a connecting strip groove 95T. 笫1~第3部件91〜93例如用不锈钢、钛、铝或者包含它们的合金等的金属形成,各部件91~93的孔部和沟部例如用放电加工形成。 Zi to third member 91~93 e.g. stainless steel, titanium, aluminum or alloys thereof and the like comprises forming a hole portion and the groove portion of the respective members 91 to 93 are formed, for example by electric discharge machining. 在通过放电加工对各部件91~93加工,通过用粘接剂、热压接法等粘合这些各部件91〜93,形成流路形成部件90。 Member 90 is formed by electric discharge machining of the respective members 91 to 93 are processed with an adhesive by thermocompression bonding method or the like each of these components 91~93, forming a flow path. 通过叠层各部件91〜 93粘合,喇叭形状沟部94T、第1供给沟部94C、第3供给孔部94B 以及第1供给孔部94A的各自连接(连通),由此形成与第l供给管41连接(连通)的供给流路。 91~ 93 by stacking the respective bonding member, the tapered groove 94T, the first supply groove 94C, the third supply hole 94B, and the supply portion of the first hole portion 94A are each connected (communicated), thereby forming the first l supply pipe 41 is connected (communicated) supply passage. 同样,通过连接(连通)喇p八形状沟部95T、第2供给沟部95C、第4供给孔部95B以及第2供给孔部95A 的各自,形成与笫2供给管41连接(连通)的供给流路。 Similarly, La p eight shaped groove 95T, supply groove 95C by connecting (communicating) the second, the fourth supply hole 95B and the second supply hole portion 95A are each formed with a feed Zi 2 41 is connected (communicated with) supply passage. 而后,从第1、第2液体供给部11、 12各自送出的液体1经由第1、第2供给管41、 42以及上迷供给流路提供给基板P上。 Then, the first and second liquid supply portions 11, 12 are each provided to feed the liquid 1 onto the substrate P via the first and second supply pipes 41, the fan 42 and the supply passage. 即,通过叠层板状部件91~93,形成液体供给流路。 That is, by laminating plate-shaped members 91 to 93 to form a liquid supply passage.

此外,通过连接(连通)喇叭形状沟部96T、第1回收沟部96B 以及第1回收孔部96A的各自,形成与第1回收管71连接(连通) 的回收流路。 Further, by connecting (communicating) the tapered groove 96T, the first recovery groove 96B and the first recovery hole 96A are each formed recovery flow passage connected to the first recovery pipe 71 (communicated with). 同样,通过连接喇叭形状沟部97T、第2回收沟部97B 以及第2回收孔部97A的各自,形成与第2回收管72连接(连通) 的回收流路,通过连接(连通)喇叭形状沟部98T、第3回收沟部98B 以及第3回收孔部98A的各自,形成与第3回收管73连接(连通) 的回收流路,通过连接(连通)喇叭形状沟部99T、第4回收沟部99B 以及第4回收孔部99A的各自,形成与第4回收管74连接(连通) 的回收流路。 Also, by connecting the tapered groove 97T, the second recovery groove 97B, and the second recovery hole 97A are each formed recovery flow passage connected to (communicated with) the second recovery tube 72, by connecting (communicating) the tapered groove section 98T, the third recovery groove 98B, and the third recovery hole 98A are each formed with a third recovery 73 is connected to (communicated with) recovery flow path pipe, by connecting (communicating) the tapered groove 99T, the fourth recovery groove portion 99B and a fourth recovery hole 99A are each formed recovery flow passage connected to the fourth recovery tube 74 (communicated with). 而后,基板P上的液体经由上述回收流路以及第1~第4回收管71~74的各自被回收。 Then, the liquid on the substrate P via the recovery flow path and the first to fourth recovery tubes 71 to 74 are each of recovered.

此时,因为在第1、第2供给管41、 42的各自上连接喇叭形状沟部94T、 95T,所以和参照图14说明的实施方式一样,在把Y轴方向设置为长度方向的供给口的各位置上可以均匀进行液体供给。 At this time, since the first and second supply pipe 41 are each connected to the tapered groove 94T, 95T 42, so the description and embodiments with reference to FIG. 14, as the supply port is disposed in the longitudinal direction of the Y-axis direction each position on the liquid can be uniformly supplied. 同样, 因为在回收管71~74的各自上也连接喇叭形状沟部,所以可以用均匀的回收力回收液体。 Also, since the recovery tube is also connected to the respective tapered groove portions 71 to 74, the liquid can be recovered with the uniform recovery force.

而后,通过用作为板状部件的第1~第3部件91〜93的各自形成流路形成部件90,例如可以用流路形成部件卯吸收在液体回收时吞入空气吸引液体时发生的振动。 Then, by the first to third plate-like member is used as each member 91~93 flow path forming member 90 is formed, for example, when the vibration occurring when the liquid absorbing member d swallow air suction recovery liquid flow path can be formed. 此外,因为对于许多板状部件91~93 的各自通过实施放电加工等的加工形成流路的一部分,通过组合它们形成液体的流路,所以可以容易形成供给流路以及回收流路的各自。 Furthermore, since each part forming the flow path for the electrical discharge machining process by performing a number of plate-shaped members 91 to 93, which is formed by combining the liquid flow path, it can be easily formed in the supply passage and the recovery flow passage of each.

进而,在形成流路形成部件90的多个部件91~93中,在#:配置在最下段上的第1部件91的下面的第1~第4回收孔部96A~99A的周围上设置相对XY平面倾斜的面,通过亲液处理该表面,可以作为捕捉不能用液体回收机构彻底回收的液体的收集面使用。 Further, a plurality of members 91 to 93 member 90 is formed in the flow passage, in #: arranged on the periphery below 91 in the first to fourth recovery hole lowermost first member section 96A ~ 99A disposed opposite XY plane surface inclined by lyophilic treatment of the surface, can be used as a capturing surface of the liquid recovery mechanism could not recover all of the liquid used. 此外,形成流路形成部件90的部件91 ~ 93是方形的板状部件,但也可以4吏用圆形的板状部件,可以设置成在X方向上长的椭圆状的板状部件。 Further, a flow path forming member 91 to member 90 is a square plate-like member 93, but may be 4 officials circular plate-like member, may be arranged in the X direction of the long elliptical plate-shaped member.

此外,上述的流路形成部件90在其内部形成供给流路和回收流路的双方,也可以只把任意一方设置在流路形成部件90的内部。 Further, the flow path forming member 90 is formed in both the supply flow path and recovery flow path in its interior, it may be provided only either one of the inner member 90 is formed in the flow passage. 此外, 叠层多个部件形成的流路形成部件可分成为供给流路用和回收流路用而分别提供。 Further, the flow path formation member forming a plurality of stacked members becomes divided supply flow path and recovery flow passage respectively provided with.

以下,说明本发明的进一步的另一实施方式。 Hereinafter, a further embodiment of a further embodiment of the present invention. 如上所述,包含供给部件13、 14的液体供给机构10以及包含回收部件22的液体回收机构20的各自理想的是,用投影光学系统PL以及支撑该投影光学系统PL的支撑部件以外的支撑部件支撑。 As described above, 13, 14 of the liquid supply mechanism 10 and the liquid recovery mechanism comprises a recovery member 22 comprises a supply member 20 are preferably each support member other than the projection optical system PL and a support member for supporting the projection optical system PL support. 以下,参照图20说明液体供给机构10以及支撑液体回收机构20的支撑结构。 Hereinafter, with reference to FIG. 20 illustrates a support structure supporting liquid supply mechanism 10 and liquid recovery mechanism 20.

图20是展示液体供给机构10以及液体回收机构20的支撑构造的概略图。 FIG 20 is a schematic view showing a support structure of a liquid supply mechanism 10 and the liquid recovery mechanism 20. 图20中,曝光笨置EX包括:支撑投影光学系统PL的镜筒平台(笫1支撑部件)100;支撑镜筒平台100、掩模载台MST以及基板载台PST的主框架(第2支撑部件)102。 20, the exposure set EX stupid comprising: supporting the projection optical system PL barrel platform (Zi support member 1) 100; barrel support platform 100, the mask stage MST and the substrate stage PST of the main frame (second support member) 102. 进而,在图20中, Z载台以及XY载台用一体图示。 Further, in FIG. 20, Z stage and the XY stage with one illustrated. 主框架102在超净间等的地面上通过脚部分108设置成大致水平。 The main frame 102 foot portion 108 disposed substantially horizontally on the ground or the like through the clean room. 在主框架102上形成向内侧突出的上侧段部102A以及下侧段部102B。 Lower step 102B is formed inwardly projecting portion 102A in the upper section 102 and the main frame.

照明光学系统IL用被固定在主框架102的上部的支撑框架120 支撑。 The illumination optical system IL is supported by a main frame fixed to the upper portion 102 of the support frame 120. 在主框架102的上侧段部分102A中,经由防振动装置122支撑掩模平台124。 102 in a portion 102A on the side section of the main frame, via a vibration-proof platform 122 supports the mask 124. 在掩模栽台MST以及掩模平台124的中央部分上形成使掩模M的图案像通过的开口部。 Planted formed on the mask stage MST and the mask central portion of the platform 124 of the pattern image of the mask M via the opening portion. 在掩模栽台MST的下面上设置多个作为非接触轴承的气体轴承(空气轴承)126。 A plurality of noncontact bearing as a gas bearing (air bearing) 126 planted on the lower mask stage MST. 掩模载台mst用空气轴承126相对掩模平台124的上面(引导面)非接触支撑,用掩模载台驱动装置在xy平面内可以2维移动以及在9Z方向上微小旋转。 Mst mask stage 126 relative to the mask with an air bearing above the platform 124 (guide surface) of the non-contact support, and a two-dimensional fine movement in the xy plane rotating means may be in the driving direction 9Z mask stage.

在保持投影光学系统pl的镜筒pk的外周上设置法兰盘104, 投影光学系统pl经由该法兰盘104支撑在镜筒平台100上。 Flange 104 is provided on an outer periphery of the holding projection optical system of the lens barrel pk, pl, pl projection optical system is supported on a barrel platform 100 via the flange 104. 在镜筒平台100和主框架102的下段部102b之间配置包含空气垫等的防振装置106,支撑投影光学系统pl的镜筒平台100通过防振装置106 支撑在主框架102的下侧段部分102b上。 Configuration comprising a vibration damping device 106 like an air cushion between the lower portion 102b of the lens barrel platform section 100 and the main frame 102, which supports the projection optical system 100 pl barrel platform supported in a side section of the main frame 102 by the vibration damping device 106 section 102b on. 用该防振装置106如主框架102的振动不传递到支撑投影光学系统pl的镜筒平台ioo上那样, 把镜筒平台100和主框架102在振动性上彼此隔离。 The anti-vibration device 106 by vibrating the main frame 102 is not transmitted to the lens barrel of the projection optical system support platform ioo as pl, the barrel base plate 100 and the main frame 102 of the vibration isolated from each other.

在基板载台pst的下面上设置作为多个非接触轴承的气体轴承(空气轴承)130。 Disposed on the lower substrate stage pst as a gas bearing a plurality of non-contact bearings (air bearings) 130. 此外,在主框架102上,通过包含空气垫等的防振装置110支撑载台基座112。 Further, on the main frame 102, through the vibration isolating means comprises an air cushion 110 like the support base 112 stage. 基板载台pst用空气轴承130相对载台基座112的上面(引导面)非接触支撑,用基板载台驱动装置可以在 Pst substrate stage 130 with an air bearing stage relative to the base 112 of the upper surface (guide surface) non-contact support, with the substrate stage drive apparatus may

xy平面内2维移动以及在ez方向上微小移动。 2-dimensional movement and the slight movement in the xy plane direction ez. 进而,基板载台pst 还可以在z方向、ex方向以及eY方向上移动。 Furthermore, the substrate stage pst can also move in the z direction, ex direction and eY direction. 用该防振装置iio如 As with the anti-vibration apparatus iio

主框架102的振动不传递到非接触支撑基板载台pst的载台座112那样,载台基座112和主框架102被在振动性上彼此隔离。 Vibration of the main frame 102 is not transmitted to the non-contact support 112 above the substrate stage pst carrier base, the base stage 112 and the main frame 102 are separated from each other in terms of the vibration.

在基板载台pst上的+x侧的规定位置上设置移动镜55,在镜筒pk的+乂侧的规定位置上设置参照镜(固定镜)114。 In a predetermined position of the substrate + x side of the movement mirror 55 is provided on the table pst, provided reference mirror (fixed mirror) 114 + qe at a predetermined position on the side of the barrel pk. 此外,在与移动镜55以及参照镜114相对的位置上设置激光干涉计56。 Further, provided in a position opposite the reference mirror and the movable mirror 114 on the laser interferometer 55 56. 激光干涉计56因为被安装在镜筒平台100上,所以激光干涉计56和液体供给机构10以及液体回收机构20被在振动性上彼此隔离。 Because the laser interferometer 56 is mounted on a barrel platform 100, the laser interferometer 56 and the liquid supply mechanism 10 and the liquid recovery mechanism 20 are isolated from each other in terms of the vibration. 激光干涉计56在向镜筒镜55照射测长光束(测定光)的同时,在参照镜114上照射参照光束(参照光)。 While laser interferometer 56 to the mirror 55 is irradiated barrel length-measuring beam (measuring light), the reference mirror 114 is irradiated on the reference beam (reference light). 基于被照射的测长光束以参照光束的来自移动镜55以及参照镜114各自的反射光在激光干涉计56的受光部上接收光,激光干涉计56干涉这些光,测量以参照光束的光路长度为基准的测长光束的光路长度的变化量,进而测量以参照镜114为基准的移动镜55的位置信息,即基板载台PST的位置信息。 Length-measuring light beam is irradiated on to the reference beam movable mirror from 55 and the reference mirror 114 of each of the reflected light interference received light on the light receiving portion meter 56, the laser in the laser interferometer 56 interfere with the light to measure the optical path of the reference beam length for the change of the optical path length of the reference measuring beam, thereby measuring the position information of the reference mirror 114 to the movable mirror 55 as a reference, i.e. the location information of the base board stage PST. 同样,虽然未同时,但在基板载台PST上以及镜筒PK的+ Y侧也设置移动镜以及参照镜,在与它们相对的位置上设置激光干涉计。 Similarly, although not simultaneously, but in the substrate stage PST and the barrel PK is also provided on the + Y side of movable mirror and a reference mirror disposed at a position opposite to the laser and the interferometer thereof.

此外,在镜筒平台100上用于测量基板P的聚焦位置(Z位置) 以及倾斜的自聚焦检测系统和基板P上的校准标志的校准系统等,也被未图示的测量系统支撑,这些测量系统也是和主框架102、液体供给机构10、液体回收机构20在振动性上彼此隔离。 Further, on the barrel platform 100 for measuring the focus position of the substrate P (Z position) and the inclination of the alignment mark from the focus detection system and the substrate P calibration system, is also supported measuring system (not shown), these measurement system and the main frame 102 is, the liquid supply mechanism 10, the liquid recovery mechanism 20 isolated from each other in the oscillation.

液体供给机构10以及液体回收机构20被主框架102的下段部102B支撑。 20 is the lower portion 102B of the main support frame 102 of the liquid supply mechanism 10 and the liquid recovery mechanism. 在本实施方式中的构成是:构成液体供给机构10的第1、 第2供给部件13、 14、供给管IIA、 12A以及构成液体回收机构20 的回收部件22、回收管21A等用支撑部件140支撑,该支撑部件140 与主框架102的下段部102B连接。 Configuration in the present embodiment are: first and second supply members constituting the liquid supply mechanism 10, 13, 14, the supply pipe IIA, 12A and recovering the member constituting the liquid recovery mechanism 20, 22, the recovery tube 21A is a supporting member 140 the lower support portion, the support member 140 and 102B of the main frame 102 is connected. 进而,在图20中,供给部件13、 14、回收部件22、供给管IIA、 12A以及回收管21A等简化图示。 Further, in FIG. 20, the supply member 13, 14, the recovery member 22 to simplify the illustration, the supply pipe IIA, 12A and the recovery tube 21A and the like.

这样,通过用和支撑投影光学系统PL的镜筒平台IOO在振动性上彼此隔离的主框架102支撑液体供给机构10以及液体供给机构20, 液体供给机构10及液体回收机构20和投影光学系统PL被在振动性上彼此隔离。 Thus, 20, the liquid supply mechanism 10 and the projection optical system 20 and the liquid recovery mechanism of the main frame 102 supports the liquid supply mechanism through a projection optical system PL and the support platform IOO barrel on the vibration isolated from each other and the liquid supply mechanism 10 PL They are isolated from each other in terms of the vibration. 因而,在液体供给时,或者液体回收时产生的振动,不会经由镜筒平台IOO传递到投影光学系统PL、激光干涉计56以及自聚焦检测和校准系统等的测量系统。 Thus, when the liquid supply, or vibration generated when the liquid recovery, is not transmitted to the projection optical system PL, the laser interferometer 56 and the focus detection and self-calibration system, measuring system via the internet barrel IOO. 因而,可以防止由于投影光学系统振动发生图案像劣化的异常的情况,此外,因为可以高精度进行基板载台(基板P)的位置控制,所以可以把图案像高精度投影到基板上。 Accordingly, the projection optical system can be prevented since the vibration pattern image abnormality deteriorated, in addition, since the position can be controlled substrate stage (substrate P) in high precision, can be accurately projected image of the pattern onto the substrate. 此外,通过用和支撑基板载台PST的载台基座112在振动性上彼此隔离的主框架102支撑液体供给机构10以及液体供给机构20,液体供给机构10及液体回收机构20和载台基座112被在振动性上彼此隔离。 Further, by using the supporting substrate 112 and main frame 102 supports the liquid supply mechanism stage PST stage base on the vibration isolated from one another 10 and the liquid supply mechanism 20, the liquid supply mechanism and the liquid recovery mechanism 10 and the carrier 20 LMH Block 112 is isolated from each other in terms of the vibration. 因而,在液体供给时,或者在液体回收时产生的振动不会传递到载台基座112,可以防止产生降低基板载台PST的位置确定精度, 或者移动精度的的异常。 Thus, when the liquid is supplied, or the vibration generated when the liquid recovery is not transmitted to the stage base 112, can be prevented in the lowered position of the substrate stage PST to determine the accuracy, precision or abnormal movement.

进而,本实施方式中,在主框架102上一体地支撑液体供给机构10以及液体回收机构20,但也可以将液体供给机构10和液体回收机构20分开安装在主框架102上。 Further, in this embodiment, the main frame 102 integrally supports the liquid supply mechanism 10 and the liquid recovery mechanism 20, but may be a liquid supply mechanism 10 and liquid recovery mechanism 20 separately mounted on the main frame 102. 进而,主框架102和另一支撑部件配置在超净间等的地上,在该支撑部件上也可以支撑液体供给机构和液体回收机构。 Further, the main frame 102 and the other support member disposed in the clean room floor or the like, on the support member may also support the liquid supply mechanism and the liquid recovery mechanism.

如上所述,本实施方式中的液体l使用纯水。 As described above, according to the present embodiment, the liquid l of pure water is used. 纯水在半导体制造工厂等中在可以容易大量得到的同时,具有对基板P上的光刻胶和光学元件(透镜)等没有不良影响的优点。 While pure water or the like in a semiconductor manufacturing plant can be easily obtained in a large amount, has the advantage of no adverse effect on the photoresist on the substrate and the optical element P (lens) and the like. 此外,纯水在对环境没有不良影响的同时,因为杂质的含有量极其低,所以还可以期待洗净基板P的表面以及被设置在投影光学系统PL的前端面上的光学元件的表面的作用。 Further, while the pure water has no adverse impact on the environment, since the content of impurity is extremely low, so it can be expected effect of the surface cleaning a surface of the optical element and the front end face of the substrate P is disposed in the projection optical system PL . 而后,相对波长193nm左右的曝光光束EL的纯水(水) 的折射率n可以说大致在1.44左右,作为曝光光束EL的光源当使用ArF准分子激光(波长193nm )的情况下,在基板P上被短波长化为1/n,即134mn左右而得到高的解像度。 Then, the wavelength of about 193nm exposure light beam EL is pure water (water) refractive index n can be said to roughly 1.44 in the case, when using an ArF excimer laser as a light source of the exposure light beam EL (193nm wavelength) of the substrate P the wavelength is shortened by 1 / n, i.e., about 134mn obtained high resolution. 进而,焦深与空气中相比因为约扩大为ii倍,即约为1.44倍,所以当在空气中使用的情况下只要确保同等的焦深即可的情况下,可以进一步增加投影光学系统PL的数值孔径,这一点也可以提高解像度。 Further, the depth of focus in the air as compared to approximately expanded ii times, i.e., about 1.44 times, in the case where it is used in air under the same conditions to ensure long depth of focus, may further increase the projection optical system PL numerical aperture, it can also improve resolution.

进而,如上所述当使用了液浸法的情况下,投影光学系统的数值孔径NA为0.9〜1.3。 Further, as described above when using a liquid immersion method, the numerical aperture NA of the projection optical system is 0.9~1.3. 当投影光学系统的数值孔径NA这样大的情况下, 在以往作为曝光光束使用的随机偏振光中因偏振光效应成像性能恶化,所以希望使用偏振光照明。 When the numerical aperture NA of the projection optical system is so large, as the exposure light beam used in the conventional randomly polarized light due to the polarization effect imaging performance deteriorates, it is desirable to use the polarized illumination. 这种情况下,进行与掩模(掩模原版) 的线和间距图案的线图案的长度方向一致的直线偏振光照明,从掩模(掩模原版)的图案中,可以射出许多S偏振光成分(沿着线图案的长度方向的偏振光方向成分)的衍射光。 In this case, the longitudinal direction uniform line pattern of line and space pattern with a mask (reticle) linearly polarized light illumination, the mask (reticle) pattern may be many S-polarized light is emitted diffracted light components (along the longitudinal direction of the line pattern polarization direction component). 与用液体充满投影光学系统PL和被涂布在基板P表面上的抗蚀剂之间的情况,和用空气(气体) 充满投影光学系统PL和被涂布在基板P表面上的抗蚀剂之间的情况相比,因为在有利于提高对比度的S偏振光成分的衍射光的抗蚀剂表面上的透过率高,所以即使在投影光学系统的数值孔径NA超过1.0 的情况下,也可以得到高的成像性能。 And the case is filled between the projection optical system PL and is coated on the surface of the substrate P with the liquid resist, and the projection optical system PL is filled and is coated on the surface of the substrate P with resist air (gas) comparison between the case, because the high transmittance help improve agent on the surface of the S polarized light component diffracted beam resist contrast, even in the case where the numerical aperture NA of the projection optical system exceeds 1.0, it high imaging performance can be obtained. 此外,如果适宜地组合与相移掩模或线图案的长度方向一致的斜向入射照明法(特别是偶极照明法) 等,则具有进一步效果。 Also, if appropriate in combination with a phase shift mask or identical to the longitudinal direction of the line pattern of the oblique incidence illumination method (especially the dipole illumination method) or the like, having the effect further. 进而,对于和线图案的长度方向一致的斜向入射照明法,例如被公开在特开平6- 188169号公报上,在由本国际申请中指定或者选择的国家法令容许的范围中,援引该公开作为本文的记栽的一部分。 Further, for the longitudinal direction of the line pattern and the oblique incidence illumination method consistent with, for example, it is disclosed in JP No. 6- 188169, specified by the present international application or the selected national laws allowable range, as disclosed in the cited remember planted a part hereof.

在本实施方式中,在投影光学系统PL的前端上作为光学元件2 安装透镜,可以用该投影进行投影光学系统PL的光学特性,例如像差(球面像差,彗形像差等)的调整。 In the present embodiment, on the front end of the projection optical system PL of the lens as the optical element 2 is mounted, the optical properties may be performed by the projection optical system PL of the projection, such as adjusting the aberration (spherical aberration, coma aberration). . 进而,作为光学元件2也可以是调整上述光学特性的光学板。 Further, as the optical element 2 may be adjusting the optical characteristics of the optical plate. 另一方面,也可以把和液体l接触的光学元件2设置成比透镜便宜的平行平面板。 On the other hand, the optical element may be in contact with the liquid l cheaper than the lens 2 is arranged plane-parallel plate. 通过把光学元件2设置成平行平面板,在曝光装置EX的运输、组装、调整时等中降低投影光学系统PL的透过率、基板P上的曝光光束EL的照度以及照明分布的均匀性的物质(例如硅基有机物质)即使附着在该平行平面板上, 也可以只在提供液体1之前更换该平行平面板,和把和液体1接触的光学元件设置为透镜的情况相比具有其更换成本低的优点。 The optical element 2 through the plane-parallel plate disposed in the exposure apparatus EX of transportation, assembly, reducing the transmittance of the projection optical system PL when the adjustment, the illuminance exposure light beam EL on the substrate P, and the uniformity of the illumination distribution where a substance (e.g., silicon-based organic matter) even though the plane-parallel plate is attached, may be provided only in the replacement of the liquid before the parallel plate 1, and the contact with the liquid and the optical element 1 is provided to replace the lens in comparison with and low cost. 即,因为由于因曝光光束EL的照射从抗蚀剂中发生的飞溅粒子,或者液体1 中的杂质的附着等引起与液体l接触的光学元件的表面污浊,所以需要定期更换该光学元件,而通过把该光学元件设置成便宜的平行平面板,与透镜相比更换部件的成本降低,并且可以缩短更换所需要的时间,可以抑制维护成本(运行成本)的上升和生产量的降低。 That is, since the particles due to splashing of the exposure illumination light EL generated from the resist, the adhesion of the liquid 1 or the like caused by impurities in contact with the liquid optical element l dirty surface, it is necessary to periodically exchange the optical element, and by the optical element arranged cheap plane parallel plate, as compared with the lens replacement part costs and may reduce the time required for the replacement can be suppressed maintenance cost (running cost) is increased and decreased production volumes.

进而,当因液体l的流动产生的投影光学系统PL的前端的光学元件和基板P之间的压力大的情况下,不能更换该光学元件,该光学元件被坚固地固定不能被该压力移动。 Further, when the pressure is large between the front end of the optical elements of the projection optical system due to the flow of the liquid generated by l PL and substrate P, and can not replace the optical element, the optical element is firmly fixed to the pressure can not be moved.

进而,本实施方式的液体l是水,而也可以是水以外的液体。 Further, the present embodiment l liquid is water, but may be a liquid other than water. 例如在曝光光束EL的光源是F2激光的情况下,该F2激光因为不透过水, 所以作为液体1可以是能够透过F2激光光束的例如过氟化聚醚(PFPE)或氟元素基油等的氟元素基流体。 For example, in a light source exposure light beam EL is the case where the F2 laser, the F2 laser beam is not transmitted through water because, as the liquid 1 may be so, for example, perfluorinated polyether (the PFPE) F2 can be transmitted through a laser beam or fluorine-based oil other fluorine-based fluids. 这种情况下,在和以收集面31为主的液体l接触的部分上,例如,通过用包含氟元素的极性小的分子构造的物质形成薄膜进行亲液化处理。 In this case, on a portion of surface 31 and to collect fluid l main contact, for example, lyophilic treatment by forming a thin film comprising fluorine element with a polar small molecular structure of a substance. 此外,作为液体1,除此以外还可以使用相对曝光光束EL具有透过性,折射率尽可能高, 对于在投影光学系统PL和被涂布在基板P表面上的光刻胶稳定的物质(例如雪松油)。 Further, as the liquid 1, may be used except that the exposure light beam EL having a relative permeability, refractive index as high as possible, for the projection optical system PL and is coated on the surface of the substrate P photoresist stable material ( for example, cedar oil). 这种情况下也是表面处理与所使用的液体1的极性相应地进行。 And also the surface treatment liquid used is a polar accordingly in this case.

进而,上述的投影光学系统PL的构成(设计)是,在用液体1 (纯水)充满该像面侧的液浸状态下,其成像性能最佳,而也可以设置(设计)成这样的结构,通过更换投影光学系统PL的一部分的光学元件(接近基板P的光学元件),在该像面侧不存在液体的非液浸状态和用另一液体充满该像面侧的液浸状态下都可以得到所希望的成像性能。 Further, the above-described configuration of the projection optical system PL (design) is, at the image side is filled with the liquid 1 (pure water) liquid immersion state, the optimum imaging performance, and may be provided (designed) such as a non liquid immersion state and the image side surface is filled with another liquid immersion state configuration, the optical element (optical element close to the substrate P) to replace a portion of the projection optical system PL, the liquid does not exist in the image surface side You can obtain a desired imaging performance. 通过这样构成投影光学系统PL,例如当需要大焦深DOF的情况下在液浸状态下使用曝光装置EX,在要求高生产率的情况下更换一部分光学元件在非液浸状态下使用曝光装置EX。 By constituting the projection optical system PL, for example, in the case where it requires a large depth of focus DOF ​​of an exposure apparatus EX in the liquid immersion state, replacement of part of the optical element in the case of requirements for high productivity using an exposure apparatus EX in the non liquid immersion state. 这种情况下, 为了测定一部分光学元件的更换后的成像性能,希望在基板栽台PST 上配置空间像传感器或波面像差测定传感器。 In this case, the imaging performance measured in order to replace a portion of the optical element, desired space disposed on the substrate stage PST planted as a sensor or sensors measuring the wavefront aberration. 此外,可以使用波面像差测定用的掩模,也可以根据该成像性能的测定结果,如在各状态下得到所希望的成像性能那样,推动一部分光学元件,或者进行曝光光束EL的波长的微调整。 Further, using a mask for measuring the wavefront aberration, may be based on the measurement result of the imaging performance, as obtained in each state as the desired imaging performance, pushing part of the optical element, or wavelength exposure light beam EL is a micro Adjustment. 进而,对于上述空间像传感器的详细,例如在特开2002- 14005号(对应美国专利公开20020041377)中公开, 此外对于波面像差测定传感器的详细,例如在国际公开第02/63664号公报中公开,在本国际申请中指定或者被选择的国家的法令允许的范围中,援引这些公开作为本文的记载的一部分。 Further, the above-described aerial image sensor in detail, for example, in Laid-Open No. 2002- 14005 (corresponding to U.S. Patent Publication 20020041377) discloses, in addition to the detailed measurement of the wavefront aberration sensor, such as disclosed in International Publication No. 02/63664 Publication specified in the present international application or national laws allow selected range, as described in these publications cited herein portion.

此外, 一部分的光学元件的更换理想的是在曝光装置EX上安装投影光学系统PL的状态下进行,而也可以在从曝光装置EX上拆下投影光学系统PL的状态下进行。 In addition, the replacement part over the optical element is mounted in a state of the projection optical system PL in the exposure apparatus EX, and may be performed in a state detached from the projection optical system PL of the exposure apparatus EX.

进而,作为上述各实施方式的基板P,不仅适用于半导体器件制造用的半导体晶片,而且适用于显示器器件用的玻璃基板、薄膜磁头用的陶瓷晶片,或者在曝光装置中使用的掩模或者掩模原版的原版(合成石英,硅晶片)等。 Further, as the above-described embodiments of substrate P, and is applicable not only to a semiconductor wafer for manufacturing a semiconductor device, the ceramic wafer and a glass substrate suitable for use in a display device, a thin film magnetic head, or a mask used in an exposure device or mask original master mold (synthetic quartz, silicon wafer) and the like.

作为曝光装置EX除了可以适用使掩模M和基板P同步移动扫描曝光掩模M的图案的步进式扫描方式的扫描型曝光装置(扫描步进曝光装置)外,还可以适用在使掩模M和基板P静止的状态下一并曝光掩模M的图案,使基板P顺序步进移动的步进重复方式的投影曝光装置(步进曝光装置)。 As the exposure apparatus EX can be applied in addition to the mask M and the substrate P outside the synchronous mobile scanning a scanning exposure apparatus (scanning stepper exposure device) scan pattern stepwise pattern exposure mask M, the mask can be applied in projection exposure apparatus (stepper apparatus) step and repeat mode M and the substrate P in a stationary state and a next exposure pattern of the mask M, the substrate P is sequentially stepping movement. 此外,本发明还可以适用于在基板P上至少局部重叠转移2个图案的步进断续方式的曝光装置。 Further, the present invention can also be adapted to at least partially overlap on the substrate P transfer intermittent exposure apparatus by a step of the embodiment of the two patterns.

此外,本发明还可以适用于双载台型的曝光装置。 Further, the present invention is also applicable to the twin-stage type exposure apparatus. 双载台型的曝光装置的构造以及曝光动作例如在特开平10-163099号以及特开平10 - 214783号(对应美国专利6341007, 6400441, 6549269以及6590634),特表2000 - 505958号(对应美国专利5, 969, 441)或者美国专利6208407中公开,在本国际申请中指定或者被选择的国家的法令容许的范围中,援引这些公开作为本文记载的一部分。 Structure and exposure operation of the twin-stage type exposure apparatus, for example, in Unexamined Patent Publication No. 10-163099 and Japanese Patent Publication 10 - No. 214783 (corresponding to U.S. Patent No. 6,341,007, 6,400,441, 6,549,269 and 6,590,634), Unexamined 2000-- No. 505,958 (corresponding to U.S. Pat. 5, 969, 441) or in U.S. Patent No. 6,208,407 discloses, laws specified in the present international application or the selected state of the allowable range, as disclosed herein described citing the part.

作为曝光装置EX的种类,并不限于在基板P上曝光半导体元件图案的半导体元件制造用的曝光装置,也可以广泛适用于制造液晶显示元件制造用或者显示器制造用曝光装置,和薄膜磁头、摄像元件(CCD)或者掩模原版或考掩模等的膝光装置等中。 The type of exposure apparatus EX is not limited to a semiconductor device exposure apparatus exposing a pattern on a semiconductor element manufactured using the substrate P, and can be widely applied to manufacturing a liquid crystal display element or the display manufacturing exposure apparatus for producing, and thin film magnetic heads, imaging device (CCD) or test mask or reticle optical device such as a knee, and the like.

当在基板载台PST和掩模载台MST中适用线性电机的情况下, 也可以使用采样了空气轴承的空气上浮型以及使用了劳伦兹力或者电抗力的磁悬浮型之一。 In the case where the substrate stage PST and the mask stage MST applicable linear motor, an air sample may be used floating type air bearing and one of the magnetic levitation type using Lorentz force or reactance force. 此外,各载台PST、 MST可以是沿着导轨移动的类型,也可以是不设置导轨的无导轨型。 Further, each of the stages PST, MST may be moved along the guide rail of the type may not be provided without guide rail type. 在载台中使用了线性电机的例子在美国专利5, 623, 853以及5, 528, 118中公开,分别在本国际申请中指定或者被选择的国家的法令容许的范围中,援引这些文件的记载内容作为本文的记载的一部分。 In U.S. Patent No. 5, 623, 853 and 5, 528, 118 disclosed in the example of the carrier station uses the linear motor, designated in the present international application or the selected country's laws allowable range, the reference to the description of these files as part of the content described herein.

作为各载台PST、 MST的驱动机构,可以使用使在两维上配置了磁铁的磁铁组件,和在二维上配置了线圏的电枢组件相对,用电磁力驱动各载台PST、 MST的平面电机。 As each of the stages PST, MST drive mechanism may be used to make two-dimensionally arranged on the magnet assembly of the magnet, and arranged two-dimensionally on the rings of the armature assembly relative to the line, an electromagnetic force drives the stage PST, MST the planar motor. 这种情况下,只要把磁铁组件和电枢组件之一连接在载台PST、 MST上,把磁铁组件和电枢组件的另一方设置在载台PST、 MST的移动侧面上即可。 In this case, one of the magnet assembly and the armature assembly is connected to the stage PST, MST, the other of the magnet assembly and the armature assembly is disposed on the side surface of the mobile stage PST, MST can be.

由基板载台PST的移动产生的反作用力可以使用框架部件机械性地传导到大地,以使其不传递到投影光学系统PL上。 A reaction force from the movement of the substrate stage PST may be generated using the frame member is mechanically transmitted to the ground, so that it is not transmitted to the projection optical system PL. 其反作用力的处理方法例如在美国专利5, 528, 118 (特开平8- 166475号乂>报) 中详细公开,在本国际申请中指定或者被选择的国家的法令容许的范围中,援引该文献记载的内容作为本文记栽的一部分。 The method of processing reaction force, for example, in U.S. Patent No. 5, 528, 118 (Japanese Patent Publication No. 8-166475 qe> packets) is disclosed in detail, laws specified in the present international application or the selected state of the allowable range, the quoted the documents referred to herein disclosed as part of the plant. 由掩模载台MST的移动产生的反作用力使用框架部件机械性地传递到大地,以使其不传递到投影光学系统PL上。 Using the reaction force frame member mechanically moved by the mask stage MST, is transferred to the ground so that it is not transmitted to the projection optical system PL. 该反作用力的处理方法例如#:详细?>开在美国专利第5, 874, 820 (特开平8 - 330224 号公报)中,在本国际申请中被指定或者选择的国家的法令容许的范围中,援引该文献的公开作为本文的记载的一部分。 The reaction treatment method, for example, #:? Details> apart in U.S. Patent No. 5, 874, 820 (JP-8 - Publication No. 330,224), the Act is designated or selected in this international application countries allowable range , as disclosed in this document cited herein described portion.

如上所述,本申请实施方式的曝光装置EX通过如保持规定的机械精度、电气精度、光学性精度那样组装包含在本申请专利请求的范围中列举的各构成要素的各种子系统制造。 As described above, the embodiment of the present application such as by exposure apparatus EX maintaining predetermined mechanical accuracy, electrical accuracy and optical accuracy of the various subsystems comprising producing assembled as respective components in the recited scope of the patent request. 为了确保这些精度,在该组装的前后,对各种光学系统进行用于实现光学性精度的调整,对各种机械系统进行用于实现机械性精度的调整、对各种电气系统进行用于实现电气精度的调整。 To ensure that these accuracies, before and after the assembling include the adjustment for the various optical systems for achieving the optical accuracy for, the various mechanical systems for adjustment to achieve mechanical accuracy for, the various electrical systems for achieving adjusting the electrical accuracy. 从各种子系统到曝光装置的组装的工序包含各种子系统相互的机械连接、电气电路的配线连接、气压回路的配管连接等。 Assembling various subsystems into the exposure apparatus comprises a step of wiring connection of the various subsystems to each other mechanical connection of the electric circuits, piping connection of pressure circuits, and the like. 在从各种子系统向曝光装置的组装的工序前,当然有各子系统各自的组装工序。 Before assembly from the various subsystems to the exposure apparatus of the step, each of the subsystems of course the assembly process. 如果对各种子系统的曝光装置的组装工序结束, 则进行综合调整,确保作为曝光装置整体的各种精度。 If the process of assembling the various subsystems in the exposure apparatus, overall adjustment is performed to ensure that the exposure apparatus as a whole variety of precision. 进而,曝光装置的制造希望在温度以及清洁度被管理的洁净间中进行。 Further, the exposure apparatus in the desired temperature and the cleanliness of clean room is managed.

半导体器件等的微型器件,经由如图21所示的以下步骤制造: 进行微型器件的功能和性能设计的步骤201;制造基于该设计步骤的掩模(掩模原版)的步骤202;制造作为器件的基础材料的基板的步骤203;用上述的实施方式的曝光装置EX把掩模的图案曝光在基板上的曝光处理步骤204;器件组装步骤(包含:切割工序,粘接工序, 封装工序)205;检查步骤206等。 Microdevices such as semiconductor devices, through the steps shown in Figure 21 for producing: a step microdevice function and performance design 201; manufactured based on this design step a mask (reticle) in a step 202; produced as a device the step of the base material of the substrate 203; the exposure apparatus EX with the above-described embodiment of the exposure processing step on a substrate a mask pattern exposure 204; device assembly step (including: dicing step, a bonding step, a packaging step) 205 ; check step 206 and the like.

如果采用本发明,则在投影光学系统和基板之间形成液浸区域的状态下进行曝光处理时,可以在稳走地形成液浸区域的同时良好地回收该液体,因为可以防止液体向周边流出等,所以可以高精度地进行曝光处理。 At the same time when the exposure process, the liquid immersion area can be formed to take the stability of the present invention, if the state of the liquid immersion area is formed between the projection optical system and the substrate satisfactorily recovered liquid, can be prevented because the liquid flows to the periphery and the like, the exposure process can be performed with high accuracy. 因而,本发明的曝光装置在使用了ArF准分子激光等的短波长光源的高解像度的曝光期间极其有效。 Accordingly, the exposure apparatus of the present invention is extremely effective during exposure of high resolution using ArF excimer laser of a short wavelength light source.

52 52

Claims (16)

1、一种曝光装置,通过隔着液体把规定图案的像投影到基板上来曝光基板,该曝光装置包括: 把上述图案的像投影到基板上的投影光学系统; 为了在包含投影光学系统的投影区域的一部分基板上形成液浸区域,从在多个不同的方向上与投影区域隔开的多个位置上同时向基板上进行液体供给的液体供给机构, 其中,上述液体供给机构同时进行从上述投影区域的两侧向上述基板上的液体供给。 1, an exposure apparatus, exposing a substrate through a liquid onto the predetermined projection pattern of the image to the substrate, the exposure apparatus comprising: the image of the pattern onto a projection optical system on a substrate; a projection optical system for the projection comprising immersion area is formed on a portion of the substrate region, while the liquid supply mechanism for supplying the liquid onto the substrate, wherein the liquid supply means at the same time from a plurality of positions spaced apart from the projection area in the plurality of different directions supplied to both sides of the projection area of ​​the liquid on the substrate.
2、 权利要求1所述的曝光装置,在顺序曝光上述基板上的多个拍摄区域时,上述液体供给机构从上述多个位置连续提供液体。 2, the exposure apparatus according to claim 1, when the plurality of shot areas in the exposure order on the substrate, the liquid supply means supplying the liquid from said plurality of successive positions.
3、 权利要求1所述的曝光装置,上述液体供给机构每单位时间从上述投影区域的两侧供给等量的液体。 3, the exposure apparatus 1, the liquid supply means supplying the same amount per unit of time from both sides of the projection area of ​​the liquid as claimed in claim.
4、 权利要求1所述的曝光装置,上述基板上的各拍摄区域一边向扫描方向移动一边被曝光,上述液体供给机构在上述扫描方向上从上述投影区域的两侧进行上述液体的供给。 4, an exposure apparatus according to claim 1, each shot area on the substrate is exposed while being moved in the scanning direction, the liquid supply mechanism for supplying the liquid from the both sides of the projection area in the scanning direction.
5、 权利要求4所述的曝光装置,上述液体供给机构把每单位时间在上述扫描方向上从上述投影区域的接近投影光学系统的一侧提供的液体量设置成比每单位时间在远离上述投影光学系统的一侧提供的液体量还多。 5, an exposure apparatus as claimed in claim 4, wherein said liquid supply means to the amount of liquid per unit time in the scanning direction, supplied from the side close to the projection optical system of the projection area is provided per unit time than the projection away from the the amount of liquid provided by the side of the optical system is more than.
6、 权利要求1所述的曝光装置,进一步包括和上述液体的供给并行地进行上述基板上的液体的回收的液体回收机构。 6, an exposure apparatus according to claim 1, further comprising supplying and recovering the liquid of the liquid on the substrate in parallel to the liquid recovery mechanism.
7、 权利要求6所述的曝光装置,上述液体回收机构从在多个不同的方向上与上述投影区域隔开的多个位置上同时进行上述基板上的液体的回j]欠。 7, an exposure apparatus according to claim 6, the liquid recovery mechanism from a plurality of positions spaced from the projection area on a plurality of different directions while the back of the liquid j on the substrate] less.
8、 权利要求6所述的曝光装置,进一步包括被配置在相对上述投影区域由上述液体回收机构进行的液体回收位置的外侧且形成有捕捉用上述液体回收机构不能彻底回收的液体的的液体收集面的收集部件。 8, exposure apparatus according to claim 6, further comprising a recovery position disposed outside of the liquid performed by the liquid recovery mechanism with respect to the projection area and the liquid is formed by capturing the liquid recovery mechanism can not be completely recovered liquid collecting member surface.
9、 权利要求8所述的曝光装置,上述收集面的液体亲和性比上述基板表面的液体亲和性还高。 9. The exposure apparatus according to claim 8, wherein the affinity of the capture liquid surface is higher than the liquid affinity of the substrate surface.
10、 权利要求8所迷的曝光装置,上述收集面被配置成包围上述投影区域且根据上述收集面的位置其长度不同。 10, eight fans exposure apparatus as claimed in claim said trap surface is arranged to surround the projection region and which differ according to the position of the length of the collecting surface.
11、 权利要求8所述的曝光装置,在上迷收集面上被捕捉到的液体净皮上述液体回收才几构回收。 11, an exposure apparatus according to claim 8, recovering only a few configurations in the above-recovered captured liquid collecting surface net skin the liquid.
12、 权利要求6所述的膝光装置,上述液体供给机构在由上述液体回收机构进行的液体回收位置和上述投影区域之间进行液体的供给。 12, the knee of the light-emitting device as claimed in claim 6, the liquid supply mechanism supplies the liquid between the liquid recovery position of the liquid by the recovery mechanism and the projection area.
13、 权利要求6所迷的曝光装置,上述液体回收机构在上述投影区域的两侧同时进行上述回收。 13, six exposure apparatus as claimed in claim fans, the liquid recovery mechanism in the recovery while both sides of the projection area.
14、 权利要求6所述的曝光装置,上述液体回收机构具有连续形成为包围上述投影区域的回收口。 14. The exposure apparatus according to claim 6, having the liquid recovery mechanism continuously formed to surround the projection area of ​​the recovery port.
15、 权利要求14所述的曝光装置,在上述回收口的内部设置有隔断。 15. The exposure apparatus according to claim 14, provided with a partition inside the recovery port.
16、 一种器件制造方法,使用权利要求1所述的曝光装置。 16. A device manufacturing method using the exposure apparatus according to claim 1.
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