WO2016043301A1 - ペリクル、ペリクルの製造方法及びペリクルを用いた露光方法 - Google Patents
ペリクル、ペリクルの製造方法及びペリクルを用いた露光方法 Download PDFInfo
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- WO2016043301A1 WO2016043301A1 PCT/JP2015/076605 JP2015076605W WO2016043301A1 WO 2016043301 A1 WO2016043301 A1 WO 2016043301A1 JP 2015076605 W JP2015076605 W JP 2015076605W WO 2016043301 A1 WO2016043301 A1 WO 2016043301A1
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- Prior art keywords
- pellicle
- frame
- hole
- filter
- frame body
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03F—PHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
- G03F1/00—Originals for photomechanical production of textured or patterned surfaces, e.g., masks, photo-masks, reticles; Mask blanks or pellicles therefor; Containers specially adapted therefor; Preparation thereof
- G03F1/62—Pellicles, e.g. pellicle assemblies, e.g. having membrane on support frame; Preparation thereof
- G03F1/64—Pellicles, e.g. pellicle assemblies, e.g. having membrane on support frame; Preparation thereof characterised by the frames, e.g. structure or material, including bonding means therefor
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03F—PHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
- G03F1/00—Originals for photomechanical production of textured or patterned surfaces, e.g., masks, photo-masks, reticles; Mask blanks or pellicles therefor; Containers specially adapted therefor; Preparation thereof
- G03F1/62—Pellicles, e.g. pellicle assemblies, e.g. having membrane on support frame; Preparation thereof
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03F—PHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
- G03F1/00—Originals for photomechanical production of textured or patterned surfaces, e.g., masks, photo-masks, reticles; Mask blanks or pellicles therefor; Containers specially adapted therefor; Preparation thereof
- G03F1/66—Containers specially adapted for masks, mask blanks or pellicles; Preparation thereof
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03F—PHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
- G03F7/00—Photomechanical, e.g. photolithographic, production of textured or patterned surfaces, e.g. printing surfaces; Materials therefor, e.g. comprising photoresists; Apparatus specially adapted therefor
- G03F7/20—Exposure; Apparatus therefor
- G03F7/2002—Exposure; Apparatus therefor with visible light or UV light, through an original having an opaque pattern on a transparent support, e.g. film printing, projection printing; by reflection of visible or UV light from an original such as a printed image
- G03F7/2008—Exposure; Apparatus therefor with visible light or UV light, through an original having an opaque pattern on a transparent support, e.g. film printing, projection printing; by reflection of visible or UV light from an original such as a printed image characterised by the reflectors, diffusers, light or heat filtering means or anti-reflective means used
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03F—PHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
- G03F7/00—Photomechanical, e.g. photolithographic, production of textured or patterned surfaces, e.g. printing surfaces; Materials therefor, e.g. comprising photoresists; Apparatus specially adapted therefor
- G03F7/70—Microphotolithographic exposure; Apparatus therefor
- G03F7/708—Construction of apparatus, e.g. environment aspects, hygiene aspects or materials
- G03F7/7095—Materials, e.g. materials for housing, stage or other support having particular properties, e.g. weight, strength, conductivity, thermal expansion coefficient
- G03F7/70958—Optical materials or coatings, e.g. with particular transmittance, reflectance or anti-reflection properties
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/02—Manufacture or treatment of semiconductor devices or of parts thereof
- H01L21/027—Making masks on semiconductor bodies for further photolithographic processing not provided for in group H01L21/18 or H01L21/34
Definitions
- the present invention relates to a pellicle used in a photolithography process, a manufacturing method thereof, and an exposure method.
- the present invention relates to a pellicle for extreme ultraviolet (EUV) lithography, a method for manufacturing the pellicle, and an exposure method using the pellicle.
- EUV extreme ultraviolet
- a pellicle In the photolithography process, a pellicle is used in which a pellicle film is stretched on one end of a frame that surrounds the mask pattern in order to prevent dust or the like from adhering to the mask or reticle.
- a pellicle When such a pellicle is mounted on the mask, the inside of the pellicle is extremely airtight, and a thin pellicle film may be slackened or swelled due to changes in atmospheric pressure or temperature.
- the pellicle film loses smoothness in this way, not only the optical characteristics of the pellicle film are changed, but also when the unevenness is severe, the pellicle film contacts the mask or houses the pellicle.
- the pellicle membrane may be damaged by hitting the case lid.
- Patent Document 1 In order to solve such a problem, for example, in Patent Document 1, at least one vent hole is formed in a pellicle frame, and a filter member that prevents passage of dust and the like is provided in the vent hole. A pellicle provided so as not to drop out in a space surrounded by a pellicle film is described.
- Patent Document 2 describes a pellicle in which an opening is provided in at least a part of the side surface of the pellicle frame and the inner surface thereof is made adhesive.
- Patent Document 3 describes a pellicle that provides a cavity inside a frame and captures foreign matter in aeration gas.
- Patent Document 4 discloses that the pellicle frame is divided into an inner member and an outer member, the inner member is made of naturally colored anodized aluminum or ceramic having excellent light resistance, and the outer member is made of aluminum having a high yield strength.
- a pellicle is described which is made of alloy 7075-T6, has two vent holes with three bent portions inside the pellicle frame, and has an adhesive layer for adsorbing dust on the inner surface of the vent hole. .
- EUV light refers to light having a wavelength in the soft X-ray region or vacuum ultraviolet region, and refers to light having a wavelength of about 13.5 nm ⁇ 0.3 nm.
- the resolution limit of a pattern is about 1/2 of the exposure wavelength, and it is said to be about 1/4 of the exposure wavelength even when the immersion method is used.
- the immersion of ArF laser (wavelength: 193 nm) Even if the method is used, the exposure wavelength is expected to be about 45 nm. Therefore, EUV lithography is expected as an innovative technology that can be greatly miniaturized from conventional lithography.
- the reflective photomask has a multilayer reflective film in which Mo layers and Si layers are alternately stacked a plurality of times on a substrate, and EUV light is emitted on the reflective layer. It has a structure in which an absorbing layer for absorbing is formed.
- EUV lithography differs from conventional lithography in that exposure is performed under vacuum, and therefore, it has been considered that mounting of a pellicle on a photomask is not essential.
- the pellicle must be attached to the photomask.
- EUV light is easily absorbed by all substances, the pellicle film disposed on the pellicle needs to be a nanometer-order film that has not been conventionally used.
- the currently developed EUV exposure apparatus has a space for mounting the pellicle on the photomask as high as 2.5 mm. Does not exist. However, in order to secure a space for mounting a conventional pellicle having a height of 5 mm or more in the exposure apparatus, it is necessary to change the design of the optical system, which delays the development of EUV lithography.
- the pellicle film sags or swells because it is exposed under vacuum, but it is greatly limited by the installation space of the pellicle, so to prevent damage to the nanometer-order pellicle film Therefore, it is necessary to ensure sufficient ventilation through the ventilation holes arranged in the frame of the pellicle. Although it is necessary to place a filter in the ventilation hole, since the space allowed for the pellicle is greatly limited, the height allowed for the frame is also greatly limited. No design is required.
- the present invention solves the above-described problems, and an object thereof is to provide a pellicle for extreme ultraviolet light lithography, a manufacturing method thereof, and an exposure method.
- the pellicle for extreme ultraviolet light lithography since the pellicle for extreme ultraviolet light lithography has a very thin pellicle film attached to the frame, it is applied by applying force from the top of the frame as in the past when attaching to a photomask. There is a risk of damage to the pellicle membrane. For this reason, a pellicle for extreme ultraviolet lithography needs to be attached to a photomask in a non-contact manner using a dedicated attaching device.
- the non-contact here means that a strong force is not applied from the top of the frame, and the standard of the strong force is about 1 kgf or more which is applied when a conventional photomask is applied.
- the present invention also provides a pellicle for extreme ultraviolet light lithography that can be attached to a photomask in a non-contact manner and a method for manufacturing the pellicle.
- a first frame body on which a pellicle film is disposed a second frame body that supports the first frame body, a through-hole that penetrates the first frame body,
- a pellicle including a filter that covers the through hole on a surface side of the first frame on which the pellicle film is disposed.
- the through hole may penetrate the pellicle film, and the filter may be disposed on the pellicle film.
- the filter may be disposed on the first frame body adjacent to the pellicle film.
- the filter may be disposed on the first frame so that the upper surface of the filter is flush with the pellicle film.
- the first frame body has a groove portion connected to the through hole on a surface facing the second frame body, and the groove portion is coupled to the second frame body, A hole connected to the through hole may be formed, and the hole may have an opening on an inner surface of the first frame.
- the second frame includes a first opening disposed on a surface facing the first frame, and a second opening disposed on an inner surface of the second frame. And the two openings may be connected by a hole disposed inside the second frame, and the first opening may be connected to the through hole.
- the second frame body has a groove portion connected to the through hole on a surface facing the first frame body, and the groove portion is coupled to the first frame body, A hole connected to the through hole may be formed, and the hole may have an opening on an inner surface of the second frame.
- the pellicle film may have a transmittance of 90.0% or more for light having a wavelength of 5 nm or more and 30 nm or less, and a film thickness of 20 nm or more and 50 nm or less.
- the pellicle may have a height of 2 mm or less.
- a pellicle film is formed on a substrate, the pellicle film at a predetermined position is removed to expose the substrate, and a part of the substrate is removed to remove the pellicle film. Is exposed to form a first frame body, a through-hole penetrating the first frame body is formed at the predetermined position, and the first frame body on the surface side where the pellicle film is disposed. Manufacturing a pellicle that disposes a filter covering the through hole and fixes the first frame body to the second frame body through an adhesive layer so that the through hole on the first frame body side is opened. A method is provided.
- the through hole may be formed through the pellicle film at the predetermined position, and a filter covering the through hole may be disposed on the pellicle film.
- the filter may be disposed on the first frame body adjacent to the pellicle film.
- the filter may be disposed on the first frame so that the upper surface of the filter is flush with the pellicle film.
- a groove portion connected to the through hole is formed on a surface of the first frame opposite to the second frame, and the first frame is attached to the first frame via an adhesive layer.
- a hole that is fixed to the second frame, connected to the through-hole, and that has an opening on the inner surface of the first frame may be formed.
- a first opening is formed on a surface of the second frame facing the first frame, and a second opening is formed on an inner surface of the second frame. Then, a hole connecting the two openings may be formed inside the second frame, and the first opening may be connected to the through hole.
- a groove portion connected to the through hole is formed on a surface of the second frame opposite to the first frame, and the first frame is attached to the first frame via an adhesive layer.
- a hole that is fixed to the second frame and connected to the through-hole and that has an opening on the inner surface of the second frame may be formed.
- the pellicle film having a thickness of 20 nm to 50 nm is formed on the substrate, and the pellicle film has a transmittance of 90.0% or more for light having a wavelength of 5 nm to 30 nm. May be.
- the height may be 2 mm or less.
- any of the pellicles is disposed on a reticle surface of a photomask, the photomask is disposed at a predetermined position of an exposure apparatus, and the pellicle is accommodated in a gap having a distance of 3 mm or less from the reticle surface.
- the photomask on which the pellicle is disposed is irradiated with light of 5 nm to 30 nm, and the substrate on which a resist layer is formed is irradiated with light emitted from the reticle surface of the photomask on which the pellicle is disposed.
- a pellicle for extreme ultraviolet light lithography a method for manufacturing the pellicle, and an exposure method are provided.
- a pellicle for extreme ultraviolet light lithography that can be attached to a photomask in a non-contact manner and a method for manufacturing the pellicle can be provided.
- FIG. 1 is a schematic diagram (perspective view) of a pellicle 100 according to an embodiment.
- FIG. It is sectional drawing in line segment AA 'of FIG. 1 of the pellicle 100 which concerns on one Embodiment.
- FIG. 1 of the pellicle 900 which concerns on one Embodiment. It is sectional drawing in line segment AA 'of FIG. 1 of the pellicle 1000 which concerns on one Embodiment. It is a schematic diagram of the 2nd frame 1113 used for the pellicle 1100 which concerns on one Embodiment. It is sectional drawing which shows notion 5000 which concerns on one Embodiment notionally. It is sectional drawing which shows notionally the photomask manufacturing apparatus 6000 which concerns on one Embodiment. It is sectional drawing which shows notionally the photomask manufacturing apparatus 7000 which concerns on one Embodiment. 4A and 4B are diagrams illustrating an example of examination of an embodiment, in which FIG. 4A is a cross-sectional view of a pellicle 1800, and FIG.
- EUV light refers to light having a wavelength of 5 nm to 30 nm.
- the wavelength of EUV light is preferably about 5 nm to 13.5 nm, and more preferably 13.5 ⁇ 0.3 nm. Since EUV light is easily absorbed by any substance, in the present invention, the pellicle film needs to be a nanometer order film.
- the pellicle film according to the present invention has a transmittance of 90.0% or more for light having a wavelength of 5 nm or more and 30 nm or less.
- the pellicle film according to the present invention preferably transmits 90.0% or more of light with a wavelength of about 5 nm to 13.5 nm, more preferably with respect to light with a wavelength of 13.5 ⁇ 0.3 nm. Have a rate.
- the pellicle film according to the present invention has a thickness of 10 nm to 100 nm, more preferably 10 nm to 50 nm.
- the EUV transmittance T of the pellicle film is defined by the following formula (1).
- I represents transmitted light intensity
- I 0 represents incident light intensity.
- the relationship expressed by the following formula (2) holds among the transmitted light intensity I and the incident light intensity I 0 , the pellicle film thickness d, the density ⁇ , and the pellicle film mass absorption coefficient ⁇ .
- the density ⁇ in the formula (2) is a density specific to the substance constituting the pellicle film. Further, the mass absorption coefficient ⁇ in the above formula (2) is obtained as follows. When the photon energy is greater than about 30 eV and the photon energy is sufficiently away from the absorption edge of the atoms, the mass absorption coefficient ⁇ does not depend on the bonding state of the atoms. The photon energy at a wavelength of 13.5 nm is around 92.5 eV, and is sufficiently away from the absorption edge of atoms. Therefore, the mass absorption coefficient ⁇ does not depend on the bonding state between the atoms of the compound constituting the pellicle film.
- the mass absorption coefficient ⁇ of the pellicle film is calculated from the mass absorption coefficient ⁇ 1 of each element (1, 2,..., I) constituting the pellicle film and the mass fraction W i of each element as follows: It is calculated
- a i is the atomic weight of each element i, and n i is the number of each element i.
- the light transmittance of the wavelength of 13.5 nm of the pellicle film is calculated based on the expressions (1) and (2). It can.
- the transmittance can also be calculated from the optical constant website of the X-ray Optical Center at Lawrence Berkeley National Laboratory.
- a material having a low absorption coefficient As the material of the pellicle film.
- the mass absorption coefficient ⁇ i of hydrogen is relatively expressed as 1, it is desirable to use a material composed of 100 or less elements.
- elements such as H, Be, B, C, N, O, Si, P, S, Cl, K, Ca, Sc, Br, Rb, Sr, Y, Zr, Nb, Mo, Tc, Ru, etc. It is desirable to use it.
- Specific compounds constituting the pellicle film include polymer compounds such as fluoropolymers, polyolefins, and polyimides, metals such as ruthenium, nickel, zirconium, titanium, molybdenum, and niobium, and crystalline silicon (for example, single crystal silicon, Polycrystalline silicon, etc.), amorphous silicon, diamond-like carbon (DLC), graphite, amorphous carbon, graphene, silicon carbide, silicon nitride, and the like.
- polymer compounds such as fluoropolymers, polyolefins, and polyimides, metals such as ruthenium, nickel, zirconium, titanium, molybdenum, and niobium, and crystalline silicon (for example, single crystal silicon, Polycrystalline silicon, etc.), amorphous silicon, diamond-like carbon (DLC), graphite, amorphous carbon, graphene, silicon carbide, silicon nitride, and the like.
- DLC diamond-like
- the pellicle film may include an antioxidant film and a heat dissipation film.
- the antioxidant film may be a film made of SiOx (x ⁇ 2), SixNy (x / y is 0.7 to 1.5), SiON, SiC, Y 2 O 3 , YN, Mo, Ru, or Rh. .
- the heat dissipation film is preferably a film made of a material having a high thermal emissivity or a material having a high thermal conductivity. Specifically, it may be a film made of the same material as the antioxidant film, a film made of Rb, Sr, Y, Zr, Nb, graphite, graphene, or the like.
- the antioxidant film and the heat dissipation film may be formed on one surface of the pellicle film or on both surfaces.
- the pellicle film may contain one or more of the above elements and compounds, or may contain two or more.
- a frame body made of aluminum, ceramics, or the like is used, and the pellicle film is bonded to the frame body through an adhesive layer.
- the pellicle film according to the present invention for EUV lithography has a very thin film thickness of 20 nm to 50 nm, it is difficult to fix the pellicle film to the frame body by adhesion. Therefore, by using a semiconductor manufacturing process, for example, a pellicle film is formed on the substrate by vapor deposition, and the substrate is back-etched into a frame shape, thereby exposing the pellicle film and obtaining a frame body on which the pellicle film is arranged.
- the substrate for example, a silicon substrate, a sapphire substrate, a silicon carbide substrate, or the like can be used.
- the substrate is preferably a silicon substrate, a sapphire substrate, or a silicon carbide substrate, and more preferably a silicon substrate.
- the height of the pellicle is preferably 2 mm or less in order to prevent the pellicle film from being damaged.
- a very thin pellicle film is formed by the method described above, it is difficult to form a through hole as a vent on the side surface of the frame.
- a method is conceivable in which a first frame having a pellicle film and a second frame having through holes formed on the side surfaces are separately formed and bonded via an adhesive layer.
- the thickness of the first frame is preferably 1 mm or less from the viewpoint of formation and handling of the pellicle film, but it is difficult to reduce the thickness to 100 ⁇ m or less.
- the height allowed for the second frame in which the through hole is arranged is 1 to 1.5 mm.
- a filter for dust prevention it is difficult to arrange a filter of 1.5 mm or less on the side surface of the second frame from the viewpoint of adhesion and handling.
- FIG. 27 is a schematic diagram of a pellicle in which a filter of about 2 mm is arranged on the side surfaces of the first frame and the second frame bonded through an adhesive layer.
- FIG. 27A shows the first pellicle by dry etching.
- FIG. 27B is a schematic view of a pellicle 1900 in which a first frame is formed by wet etching.
- the pellicle 1800 includes a first frame 1811 on which a pellicle film 1801 is disposed, and a second frame 1813 fixed to the first frame 1811 via an adhesive layer 1841.
- the second frame 1813 is formed with a through hole 1821 that penetrates the outer side surface and the inner side surface.
- a filter 1831 covering the through hole 1821 is bonded to the side surfaces of the first frame 1811 and the second frame 1813 bonded via the adhesive layer 1841 via an adhesive layer (not shown).
- an adhesive layer 1843 for fixing the pellicle 1800 to the photomask is formed on the bottom surface of the second frame 1813, and the adhesive layer 1843 is protected by the liner 1851 until the pellicle 1800 is fixed to the photomask. At this time, a gap 1890 is generated in the adhesive layer 1841 that bonds the first frame 1811 and the second frame 1813.
- the pellicle 1900 includes a first frame 1911 on which a pellicle film 1901 is disposed, and a second frame 1913 fixed via the first frame 1911 and an adhesive layer 1941.
- the second frame body 1913 is formed with a through hole 1921 that penetrates the outer side surface and the inner side surface.
- a filter 1931 covering the through hole 1921 is bonded to the side surfaces of the first frame body 1911 and the second frame body 1913 bonded through the bonding layer 1941 through an bonding layer (not shown).
- an adhesive layer 1943 for fixing the pellicle 1900 to the photomask is formed on the bottom surface of the second frame 1913, and the adhesive layer 1943 is protected by the liner 1951 until the pellicle 1900 is fixed to the photomask.
- the first frame 1911 since the first frame 1911 is formed by wet etching, the side surface of the first frame 1911 is inclined as shown in FIG. become. At this time, a gap 1990 is generated between the first frame body 1911 and the adhesive layer 1941, and sufficient adhesion of the filter 1931 cannot be obtained.
- a pellicle according to the present invention a manufacturing method thereof, and an irradiation method will be described with reference to the drawings.
- the pellicle and the manufacturing method thereof according to the present invention can be implemented in many different modes, and are not construed as being limited to the description of the embodiments described below. Note that in the drawings referred to in this embodiment, the same portions or portions having similar functions are denoted by the same reference numerals, and repetitive description thereof is omitted.
- a pellicle according to the present invention includes a first frame body on which a pellicle film is disposed, a second frame body that supports the first frame body, a through hole that penetrates the first frame body, and a first frame.
- a filter is provided that covers the through-hole on the surface side where the pellicle film of the body is arranged.
- FIG. 1 is a schematic view (perspective view) of a pellicle 100 according to an embodiment of the present invention.
- 2 is a cross-sectional view of the pellicle 100 taken along line AA ′ in FIG. 2A is a cross-sectional view of the pellicle 100 taken along line AA ′ in FIG. 1, and
- FIG. 2B is a partially enlarged view of FIG. 2A.
- the pellicle 100 includes a first frame 111 on which the pellicle film 101 is disposed, and a second frame 113 that supports the first frame 111.
- the pellicle 100 includes a through hole 121 that penetrates the pellicle film 101 and the first frame 111, and a filter 131 that is disposed on the pellicle film 101 and covers the through hole 121 (FIG. 2A). ).
- the filter 131 is disposed in the region of the pellicle film 101 on the first frame body 111 via the adhesive layer 137 (FIG. 2B).
- the second frame 113 is provided on the surface opposite to the surface on which the pellicle film 101 of the first frame 111 is disposed, but on the side surface side of the first frame 111.
- a second frame 113 may be provided.
- the pellicle film and the substrate described above can be used as the pellicle film 101 and the first frame body 111, detailed description is omitted. Silicon, sapphire, and silicon carbide are preferable as the material constituting the first frame 111, and silicon is more preferable.
- the second frame 113 a material having resistance to EUV light, high flatness, and low ion elution is preferable. In order to remove carbon-derived dirt, hydrogen gas is allowed to flow through the exposure apparatus, so that it is preferably made of a material having resistance to hydrogen radicals.
- the material of the 2nd frame 113 (pellicle frame), It can be set as the normal material used for a pellicle frame.
- Specific examples of the material of the second frame 113 include aluminum, aluminum alloys (5000 series, 6000 series, 7000 series, etc.), stainless steel, silicon, silicon alloys, iron, iron alloys, carbon steel, tool steel, Examples thereof include ceramics, metal-ceramic composite materials, and resins. Among these, aluminum and aluminum alloys are more preferable from the viewpoint of light weight and rigidity.
- the second frame 113 may have a protective film on its surface.
- the protective film a protective film having resistance to hydrogen radicals and EUV light present in the exposure atmosphere is preferable.
- An example of the protective film is an oxide film.
- the oxide film can be formed by a known method such as anodic oxidation.
- the first frame body 111 and the second frame body 113 are fixed via an adhesive layer 141.
- the thickness of the adhesive layer 141 is preferably as thin as possible within a range in which sufficient adhesion between the first frame body 111 and the second frame body 113 can be secured, and is, for example, 10 ⁇ m or more and 300 ⁇ m or less.
- the adhesive used for the adhesive layer 141 is preferably a material that has resistance to EUV light and generates a small amount of gas. In order to remove carbon-derived dirt, hydrogen gas is allowed to flow through the exposure apparatus, so that it is preferably made of a material having resistance to hydrogen radicals.
- Adhesive refers to an adhesive in a broad sense, and the concept of “adhesive” includes an adhesive.
- Adhesives include acrylic resin adhesives, epoxy resin adhesives, polyimide resin adhesives, silicone resin adhesives, inorganic adhesives, double-sided adhesive tapes, silicone resin adhesives, acrylic adhesives, polyolefin adhesives, etc. Is mentioned.
- an acrylic resin adhesive As an adhesive used for adhesion to the pellicle film or other pellicle frame, an acrylic resin adhesive, an epoxy resin adhesive, a polyimide resin adhesive, a silicone resin adhesive, or an inorganic adhesive is preferable.
- an adhesive used for adhesion to a photomask a double-sided pressure-sensitive adhesive tape, a silicone resin pressure-sensitive adhesive, an acrylic pressure-sensitive adhesive, and a polyolefin-based pressure-sensitive adhesive are preferable.
- the through hole 121 is disposed so as to penetrate the pellicle film 101 and the first frame 111.
- the through-hole 121 is depressurized from normal pressure (0.1 MPa) to a vacuum state during exposure (10 ⁇ 4 to 10 ⁇ 6 Pa)
- the expansion of the pellicle film 101 due to the differential pressure inside and outside the pellicle 100 is less than 0.5 mm. This is the diameter.
- the diameter of the through hole 121 is set in consideration of the upper limit value of the pressure loss generated in the through hole 121 when the pressure is reduced.
- the pressure loss generated in the through hole when the pressure is reduced is desirably 1 Pa or less, and more desirably 0.5 Pa or less.
- the filter 131 is installed so as to cover the through hole 121, and most of the pressure loss when the pressure is reduced is generated in the filter 131, and almost no pressure loss occurs in the through hole 121.
- the size of the through hole 121 and the number of the through holes 121 are adjusted so that the pressure loss in the through hole 121 is 1 Pa or less, more preferably about 0.1 Pa.
- the diameter of the through hole 121 is 400 ⁇ m and the number is four, or the diameter is 300 ⁇ m and the number Is 40 pieces.
- the shape of the through hole 121 is not particularly limited, and may be a circle, an ellipse, a rectangle, a polygon, a trapezoid, or the like.
- the diameter of the through hole is not particularly limited, but is desirably about 10 to 500 ⁇ m as long as the strength of the first frame does not decrease.
- the number of through holes is not particularly limited, and can be selected according to the length of the filter and the width of the filter.
- the width of the first frame 111 affects the aperture ratio of the pellicle 100.
- the through hole 121 is preferably disposed in the vicinity of the inner surface of the second frame 113.
- the filter 131 is formed of a material that can prevent the inflow of dust or the like into the pellicle 100 fixed to the photomask, and has an initial pressure loss of 100 Pa to 550 Pa and a particle size of 0.15 ⁇ m to 0.3 ⁇ m.
- a filter having a particle collection rate of 99.7% or more and 100% or less As the type of filter, for example, an ULPA filter (Ultra Low Penetration Air Filter) can be used.
- the ULPA filter is an air filter having a particle collection rate of 99.9995% or more with respect to particles having a rated air volume of 0.15 ⁇ m and an initial pressure loss of 245 Pa or less.
- a HEPA filter High Efficiency Particulate Air Filter
- the HEPA filter is an air filter having a particle collection rate of 99.97% or more with respect to particles having a rated air volume and a particle size of 0.3 ⁇ m and an initial pressure loss of 245 Pa or less.
- the filter 131 preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 101 and securing the aperture ratio of the pellicle 100.
- the filter 131 includes a ventilation portion 135 and an adhesive margin portion 133 on which the adhesive layer 137 is disposed (FIG. 2B).
- the margin part 133 is disposed on the outer periphery of the filter 131 so as to surround the ventilation part 135.
- the adhesive layer 137 serves to bond the pellicle film 101 and the ventilation portion 135 without any gap. Gas does not pass through the glue margin 137 in contact with the adhesive layer 137.
- variety of the margin part 137 is 0.2 mm or more and 1.0 mm or less. In order to increase the area of the ventilation part 135, it is desirable that the width of the adhesive margin part 137 is as narrow as possible.
- the ventilation portion 135 refers to a portion of the filter 131 that is not in contact with the adhesive layer 137. A gas passes through the ventilation portion 135 and traps particles contained in the gas. Since pressure loss occurs in the ventilation portion 135, the ventilation performance of the filter is determined by the ventilation performance of the ventilation portion 135.
- the total area of the filter 131 is set in consideration of the upper limit value of the pressure loss generated in the filter 131 when the pressure is reduced.
- the pressure loss generated in the filter 131 when the pressure is reduced is desirably 2 Pa or less.
- the length of the filter 131 can be calculated by dividing the area of the filter 131 by the width of the filter.
- the range of the length per filter is not particularly limited, but is preferably in the range of 1 cm to 15 cm, more preferably 2 cm to 10 cm.
- a size of a long side of 152 mm or less, a short knitting of 120 mm or less, and a height of 2 mm or less is assumed, and decompression and pressurization at 350 Pa / sec are assumed. Difference between inside and outside of the pellicle 100 when the pressure is reduced from normal pressure (0.1 MPa) to the vacuum state (10 ⁇ 4 to 10 ⁇ 6 Pa) during exposure and when the pressure is increased when returning from the vacuum state to the normal pressure.
- the ratio of the total area of the ventilation part of the filter 131 to the volume inside the pellicle 100 (the ventilation area of the filter / the internal volume of the pellicle) is 0.007 mm ⁇ It is preferably 1 or more and 0.026 mm ⁇ 1 or less.
- this ratio is 0.007 mm ⁇ 1 or more, the flow rate of the gas passing through the filter ventilation portion does not become too fast when decompressing and pressurizing, so that an increase in the differential pressure inside and outside the pellicle 100 is suppressed, and the pellicle film 101 Expansion can be suppressed to less than 0.5 mm.
- the ratio is 0.026 mm ⁇ 1 or less, the vent portion 135 and the glue margin portion 137 of the filter 131 can be sufficiently provided.
- the thickness (height) of the filter needs to be considered so that the total thickness (height) of the pellicle and the filter is less than 2.5 mm because the space for mounting the pellicle on the photomask is only 2.5 mm. There is.
- the thickness is preferably in the range of 0.05 mm to 1.0 mm, more preferably 0.1 mm to 0.4 mm.
- An adhesive layer 143 is disposed on the bottom surface of the second frame 113.
- the adhesive layer 143 is a means for fixing the pellicle 100 to the photomask.
- the thickness of the adhesive layer 143 is preferably as thin as possible within a range in which sufficient adhesion between the photomask and the second frame 113 can be ensured, for example, 10 ⁇ m or more and 300 ⁇ m or less.
- the adhesive used for the adhesive layer 143 is preferably a material that has resistance to EUV light and generates a small amount of gas. In order to remove carbon-derived dirt, hydrogen gas is allowed to flow through the exposure apparatus, so that it is preferably made of a material having resistance to hydrogen radicals.
- Adhesives include acrylic resin adhesives, epoxy resin adhesives, polyimide resin adhesives, silicone resin adhesives, inorganic adhesives, double-sided adhesive tapes, silicone resin adhesives, acrylic adhesives, polyolefin adhesives, etc. Is mentioned.
- the material of the adhesive layer 143 may be the same as that of the adhesive layer 141 or may be different.
- the height including the pellicle film 101, the first frame body 111, the adhesive layer 141, the second frame body 113, and the adhesive layer 143 is preferably 2 mm or less.
- the height of the pellicle 100 may be 2 mm or less in order to prevent the pellicle film 101 from being damaged. preferable.
- the adhesive layer 143 of the pellicle 100 is protected by a peelable liner 151.
- the through-hole 121 penetrates the pellicle film 101 and the first frame body, and the filter 131 is disposed in the region of the pellicle film 101 on the first frame body 111.
- the filter 131 can be disposed with sufficient adhesion without generating a void other than the through hole 121.
- the pellicle 100 according to the present embodiment can be manufactured as follows with reference to FIGS. 3 and 4, for example. In addition, the following manufacturing processes are an example, Comprising: The order of a manufacturing process can also be changed as needed.
- 3 and 4 are diagrams showing a manufacturing process of the pellicle 100.
- FIG. A substrate 105 is prepared, and a pellicle film 101 is formed on the substrate 105 (FIG. 3A).
- a silicon substrate, a sapphire substrate, a silicon carbide substrate, or the like can be used as the substrate 105, but the substrate 105 is not limited thereto.
- the pellicle film 101 is formed on the substrate 105 so as to have a thickness of 20 nm to 50 nm by vapor deposition. Since EUV light is easily absorbed by any substance, the pellicle film 101 is preferably formed thin so as to have a transmittance of 90.0% or more for light with a wavelength of 5 nm to 30 nm.
- the pellicle film 101 according to the present invention is preferably 90.0% or more for light having a wavelength of about 5 nm to 13.5 nm, more preferably for light having a wavelength of 13.5 ⁇ 0.3 nm. It has transmittance.
- the pellicle film 101 at a predetermined position where the through hole 121 is formed is removed by etching to expose the substrate 105 (FIG. 3B).
- the surface of the substrate 105 opposite to the surface on which the pellicle film 101 is formed is etched, a part of the substrate 105 is removed, the pellicle film 101 is exposed, and the first frame body 111 is formed. Further, a through hole 121 that penetrates the pellicle film 101 and the first frame 111 is formed at a predetermined position from which the pellicle film 101 is removed (FIG. 3C).
- the through-hole 121 When the through-hole 121 is depressurized from normal pressure (0.1 MPa) to a vacuum state during exposure (10 ⁇ 4 to 10 ⁇ 6 Pa), the expansion of the pellicle film 101 due to the differential pressure inside and outside the pellicle 100 is less than 0.5 mm.
- the diameter is In the present embodiment, since the through hole 121 is covered with the filter 131, the diameter of the through hole 121 is set in consideration of the resistance due to the filter 131.
- the width of the first frame 111 affects the aperture ratio of the pellicle 100.
- the through hole 121 is preferably disposed in the vicinity of the inner surface of the second frame 113.
- a filter 131 that covers the through-hole 121 is bonded onto the pellicle film 101 (FIG. 3D).
- the filter 131 is preferably a filter having the above-described characteristics, and preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 101 and ensuring the aperture ratio of the pellicle 100.
- the timing for adhering the filter 131 is not particularly limited, and may be affixed after being fixed to the second frame.
- the second frame 113 is prepared.
- An adhesive layer 143 is formed on the bottom surface of the second frame 113.
- a liner 151 that protects the adhesive layer 143 is disposed (FIG. 4A).
- the liner 151 in which the adhesive layer 143 is formed may be prepared, and the liner 151 may be attached to the bottom surface of the second frame 113 via the adhesive layer 143.
- An adhesive layer 141 is formed on the upper surface of the second frame 113 (FIG. 4B).
- the first frame 111 is fixed to the second frame 113 through the formed adhesive layer 141 (FIG. 4C). At this time, the first frame 111 is fixed to the second frame 113 via the adhesive layer 141 so that the through-hole 121 on the first frame 111 side is opened.
- the filter 131, the pellicle film 101, the first frame 111, the adhesive layer 141, the second The height including the frame body 113 and the adhesive layer 143 is preferably 2 mm or less.
- the through-hole 121 penetrates the pellicle film 101 and the first frame body, and the filter 131 is disposed in the region of the pellicle film 101 on the first frame body 111.
- the filter 131 can be disposed with sufficient adhesion without generating a void other than the through hole 121.
- FIG. 5 is a cross-sectional view of the pellicle 200 according to the embodiment of the present invention, taken along line AA ′ in FIG.
- the pellicle 200 includes a first frame body 211 on which the pellicle film 201 is disposed, and a second frame body 213 that supports the first frame body 211. Further, the pellicle 200 includes a through hole 221 that penetrates the pellicle film 201 and the first frame body 211, and a filter 231 that is disposed on the pellicle film 201 and covers the through hole 221.
- the first frame 211 has a groove 225 connected to the through hole 221 on the surface facing the second frame 213.
- the groove portion 225 forms a hole 223 connected to the through hole 221 by coupling with the second frame body 213.
- the hole 223 has an opening on the inner surface of the first frame 211.
- the filter 231 is disposed in the region of the pellicle film 201 on the first frame body 211 via an adhesive layer (not shown).
- the pellicle film 201, the first frame body 211, and the second frame body 213 can be made of the same material as the pellicle film, the substrate, and the second frame body 113 described above, detailed description thereof is omitted. .
- the first frame body 211 and the second frame body 213 are fixed via an adhesive layer 241.
- the thickness of the adhesive layer 241 is preferably as thin as possible within a range in which sufficient adhesion between the first frame body 211 and the second frame body 213 can be secured, and is, for example, 10 ⁇ m or more and 300 ⁇ m or less.
- the adhesive used for the adhesive layer 241 the same adhesive as that of the adhesive layer 141 can be used, and thus detailed description thereof is omitted.
- the through hole 221 is arranged to penetrate the pellicle film 201 and the first frame body 211. Moreover, in this embodiment, the groove part 225 and the 2nd frame 213 are arrange
- the through-hole 221 and the hole 223 connecting the through-hole 221 and the opening disposed on the inner surface of the first frame 211 are subjected to a vacuum state (10 ⁇
- the diameter of the pellicle film 201 is less than 0.5 mm due to the differential pressure inside and outside the pellicle 200.
- the diameters of the through hole 221 and the hole 223 are set in consideration of the upper limit value of the pressure loss generated in the through hole 221 when the pressure is reduced.
- the pressure loss generated in the through hole 221 when the pressure is reduced is desirably 1 Pa or less, and more desirably 0.5 Pa or less.
- the filter 231 is installed so as to cover the through-hole 221, and most of the pressure loss when the pressure is reduced is generated in the filter 231, and almost no pressure loss occurs in the through-hole 221.
- the size of the through hole 221 is adjusted so that the pressure loss at the through hole 221 is 1 Pa or less, more preferably about 0.1 Pa.
- the pressure loss generated inside and outside the pellicle 200 in the through hole 221 becomes 1 Pa or less.
- the shape of the through hole 221 is not particularly limited, and may be a circle, an ellipse, a rectangle, a polygon, a trapezoid, or the like.
- the diameter of the through hole 221 is not particularly limited, but is desirably about 10 to 500 ⁇ m within a range where the strength of the first frame and the film is not lowered.
- the number of the through holes 221 is not particularly limited, and can be selected according to the length of the filter and the width of the filter.
- the filter 231 can be the same filter as the filter 131, detailed description thereof is omitted.
- the filter 231 preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 201 and securing the aperture ratio of the pellicle 200.
- the width of the filter 231 only needs to be within the width of the first frame 211.
- the total area of the filter is set in consideration of the upper limit value of the pressure loss generated in the filter 231 when the pressure is reduced.
- the pressure loss generated in the filter 231 when the pressure is reduced is desirably 2 Pa or less.
- the length of the filter 231 can be calculated by dividing the area of the filter 231 by the width of the filter 231.
- the range of the length per filter is not particularly limited, but is preferably in the range of 1 cm to 15 cm, more preferably 2 cm to 10 cm.
- the thickness (height) of the filter needs to be considered so that the total thickness (height) of the pellicle and the filter is less than 2.5 mm because the space for mounting the pellicle on the photomask is only 2.5 mm. .
- the thickness is preferably in the range of 0.05 mm to 1.0 mm, more preferably 0.1 mm to 0.4 mm.
- An adhesive layer 243 is disposed on the bottom surface of the second frame 213.
- the adhesive layer 243 is a means for fixing the pellicle 200 to the photomask.
- the thickness of the adhesive layer 243 is preferably as thin as possible within a range in which sufficient adhesion between the photomask and the second frame 213 can be secured, and is, for example, 10 ⁇ m or more and 300 ⁇ m or less. Since the adhesive used for the adhesive layer 243 can be the same adhesive as the adhesive layer 143, detailed description thereof is omitted.
- the height including the pellicle film 201, the first frame 211, the adhesive layer 241, the second frame 213, and the adhesive layer 243 is preferably 2 mm or less. As described above, since the space for mounting the pellicle on the photomask is only 2.5 mm high, the height of the pellicle 200 may be 2 mm or less in order to prevent the pellicle film 201 from being damaged. preferable.
- the adhesive layer 243 of the pellicle 200 before use is protected by a peelable liner 251.
- the through-hole 221 passes through the pellicle film 201 and the first frame 211, and is connected to the through-hole 221 by the coupling between the groove 225 of the first frame 211 and the second frame 213. Since the hole 223 to be formed is formed, the filter 231 can be disposed with sufficient adhesion without generating a void other than the through hole 221 on the back surface of the filter 231.
- the pellicle 200 according to the present embodiment can be manufactured as follows with reference to FIGS. 6 and 7, for example. In addition, the following manufacturing processes are an example, Comprising: The order of a manufacturing process can also be changed as needed.
- 6 and 7 are diagrams showing a manufacturing process of the pellicle 200.
- FIG. A substrate 205 is prepared, and a pellicle film 201 is formed on the substrate 205 (FIG. 6A).
- a silicon substrate, a sapphire substrate, a silicon carbide substrate, or the like can be used as the substrate 205, but the substrate 205 is not limited thereto.
- the pellicle film 201 is formed on the substrate 205 so that the film thickness is 20 nm or more and 50 nm or less by vapor deposition. Since EUV light is easily absorbed by all substances, the pellicle film 201 is preferably formed thin so as to have a transmittance of 90.0% or more for light with a wavelength of 5 nm to 30 nm.
- the pellicle film 201 according to the present invention is preferably 90.0% or more with respect to light with a wavelength of about 5 nm to 13.5 nm, more preferably with respect to light with a wavelength of 13.5 ⁇ 0.3 nm. It has transmittance.
- the pellicle film 201 at a predetermined position where the through hole 221 is formed is removed by etching to expose the substrate 205 (FIG. 6B).
- the surface of the substrate 205 opposite to the surface on which the pellicle film 201 is formed is etched to remove part of the substrate 205 and penetrate the surface of the first frame 211 facing the second frame 213.
- a groove 225 connected to the hole 221 is formed.
- a through hole 221 that penetrates the pellicle film 201 and the first frame 211 is formed at a predetermined position where the pellicle film 201 is removed (FIG. 6C).
- the groove 225 connected to the through hole 221 is disposed on the surface of the first frame 211 facing the second frame 213, so that the groove 225 and the second frame 213 are arranged.
- a hole 223 connected to the through hole 221 is formed.
- the diameter of the through-hole 221 and the size of the hole 223 are set so that the pressure difference between the inside and outside of the pellicle 200 is reduced when the pressure is reduced from normal pressure (0.1 MPa) to the vacuum state at exposure (10 ⁇ 4 to 10 ⁇ 6 Pa).
- the diameter of the pellicle film 201 is less than 0.5 mm.
- the diameter of the through hole 221 and the size of the hole 223 are set in consideration of the resistance by the filter 231.
- a filter 231 that covers the through-hole 221 is bonded onto the pellicle film 201 (FIG. 6D).
- the filter 231 is preferably a filter having the above-described characteristics, and preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 201 and ensuring the aperture ratio of the pellicle 200.
- the timing for adhering the filter 231 is not particularly limited, and may be affixed after being fixed to the second frame.
- a second frame 213 is prepared.
- An adhesive layer 243 is formed on the bottom surface of the second frame 213.
- a liner 251 that protects the adhesive layer 243 is disposed (FIG. 7A).
- the liner 251 on which the adhesive layer 243 is formed may be prepared, and the liner 251 may be attached to the bottom surface of the second frame body 213 via the adhesive layer 243.
- An adhesive layer 241 is formed on the upper surface of the second frame 213 (FIG. 7B).
- the first frame body 211 is fixed to the second frame body 213 via the formed adhesive layer 241 (FIG. 7C).
- a hole 223 connected to the through hole 221 is formed by the coupling of the groove 225 formed on the surface facing the second frame and the second frame 213.
- the filter 231, the pellicle film 201, the first frame 211, the adhesive layer 241, the second The height including the frame body 213 and the adhesive layer 243 is preferably 2 mm or less.
- the through-hole 221 passes through the pellicle film 201 and the first frame 211, and is connected to the through-hole 221 by the coupling between the groove 225 of the first frame 211 and the second frame 213. Since the hole 223 to be formed is formed, the filter 231 can be disposed with sufficient adhesion without generating a void other than the through hole 221 on the back surface of the filter 231.
- FIG. 8 is a cross-sectional view of the pellicle 300 according to one embodiment of the present invention, taken along line AA ′ in FIG.
- the pellicle 300 according to the third embodiment is the same as that according to the second embodiment in that the groove 325 of the first frame body 311 is etched to a position in contact with the pellicle film 301 to form a hole 323 having the same height as the through hole 321.
- Different from the pellicle 200 Since other configurations are the same as those of the pellicle 200, detailed description thereof is omitted.
- the through-hole 321 penetrates the pellicle film 301 and the first frame 311 to form a hole 323 in which the groove portion 325 of the first frame 311 and the second frame 313 are directly connected. , Breathability is greatly improved.
- FIG. 9 is a diagram illustrating a manufacturing process of the pellicle 300.
- a substrate 305 is prepared, and a pellicle film 301 is formed on the substrate 305 (FIG. 9A). Since the substrate 305 can use the same member as the substrate 205 described above, detailed description thereof is omitted.
- the pellicle film 301 is formed on the substrate 305 so as to have a film thickness of 20 nm to 50 nm by vapor deposition. Since the material and configuration of the pellicle film 301 are the same as those of the pellicle film 201 described above, detailed description thereof is omitted.
- the pellicle film 301 at a predetermined position where the through hole 321 is formed is removed by etching to expose the substrate 305 (FIG. 9B).
- the surface of the substrate 305 opposite to the surface on which the pellicle film 301 is formed is etched to remove a part of the substrate 305 and penetrate the surface of the first frame 311 facing the second frame 313.
- a hole 321 and a groove 325 connected to the through-hole 321 are collectively formed (FIG. 9C).
- a through hole 321 that penetrates the pellicle film 301 is integrally formed with the groove 325 at a predetermined position where the pellicle film 301 is removed.
- the diameter of the through-hole 321 and the size of the hole 323 are determined so that the pressure difference between the inside and outside of the pellicle 300 is reduced when the pressure is reduced from the normal pressure (0.1 MPa) to the vacuum state at exposure (10 ⁇ 4 to 10 ⁇ 6 Pa).
- the diameter of the pellicle film 301 due to the expansion is less than 0.5 mm.
- the diameter of the through hole 321 and the size of the hole 323 are set in consideration of the resistance by the filter 331.
- a filter 331 that covers the through-hole 321 is bonded onto the pellicle film 301 (FIG. 9D). Since the material and configuration of the filter 331 are the same as those of the filter 231 described above, detailed description thereof is omitted.
- a second frame 313 is prepared. Since the materials and configurations of the second frame 313, the adhesive layer 341, the adhesive layer 343, and the liner 351 are the same as those of the second frame 213, the adhesive layer 241, the adhesive layer 243, and the liner 251, the detailed description is as follows. Omitted. Further, since the bonding process between the first frame body 311 and the second frame body 213 is the same as that of the pellicle 200 described above, detailed description thereof is omitted.
- FIG. 10 is a cross-sectional view of the pellicle 400 according to one embodiment of the present invention, taken along line AA ′ in FIG.
- the pellicle 400 according to the fourth embodiment is connected to the through-hole 421 by forming an adhesive layer 441 provided between the first frame body 411 and the second frame body 413 by partial application. It differs from the pellicle 200 of the second embodiment in that a hole 423 opened inward is formed. Since other configurations are the same as those of the pellicle 200, detailed description thereof is omitted.
- the pellicle film 401 and the first pellicle film 401 are formed by forming a hole 423 by disposing an adhesive layer 441 formed by partially coating between the first frame body 411 and the second frame body 413.
- the through-hole 421 and the hole 423 that penetrate through the frame body 411 can be easily connected. Further, since the width of the first frame 411 and the width of the second frame 413 are the same, the opening area of the pellicle film 401 can be increased.
- FIG. 11 is a diagram illustrating a manufacturing process of the pellicle 400.
- a substrate 405 is prepared, and a pellicle film 401 is formed on the substrate 405 (FIG. 11A). Since the substrate 405 can use the same member as the substrate 205 described above, detailed description thereof is omitted.
- the pellicle film 401 is formed on the substrate 405 so that the film thickness is 20 nm or more and 50 nm or less by vapor deposition. Since the material and configuration of the pellicle film 401 are the same as those of the pellicle film 201 described above, detailed description thereof is omitted.
- the pellicle film 401 at a predetermined position where the through hole 421 is formed is removed by etching to expose the substrate 405 (FIG. 11B).
- the surface of the substrate 405 opposite to the surface on which the pellicle film 401 is formed is etched to remove a part of the substrate 405 and penetrate the surface of the first frame 411 facing the second frame 413.
- a hole 421 is formed (FIG. 11C).
- a filter 431 covering the through hole 421 is bonded onto the pellicle film 401 (FIG. 11D). Since the material and configuration of the filter 431 are the same as those of the filter 231 described above, detailed description thereof is omitted.
- a second frame 413 is prepared (FIG. 12A).
- the materials and configurations of the second frame 413, the adhesive layer 443, and the liner 451 are the same as those of the second frame 213, the adhesive layer 243, and the liner 251, and thus detailed description thereof is omitted.
- An adhesive layer 441 is formed on the upper surface of the second frame 413 (FIG. 12B).
- the adhesive layer 441 is partially applied to the upper surface of the second frame body 413 to form the groove portion 445 for forming the hole 423 connected to the through hole 421.
- the first frame 411 is fixed to the second frame 413 through the adhesive layer 441 (FIG. 12C).
- a hole 423 connected to the through hole 421 is defined by the first frame body 411, the second frame body 413, and the groove portion 425.
- the material of the adhesive layer 341 is the same as that of the adhesive layer 241, and thus detailed description thereof is omitted.
- the diameter of the through-hole 421 and the size of the hole 423 are the difference in pressure between the inside and outside of the pellicle 400 when the pressure is reduced from normal pressure (0.1 MPa) to the vacuum state during exposure (10 ⁇ 4 to 10 ⁇ 6 Pa).
- the diameter of the pellicle membrane 401 is less than 0.5 mm.
- the diameter of the through hole 421 and the size of the hole 423 are set in consideration of the resistance by the filter 431.
- the filter is disposed on the upper surface of the pellicle film so as to cover the through-hole penetrating the pellicle film and the first frame.
- the space for mounting the pellicle on the photomask is only 2.5 mm high.
- an example in which the height of the pellicle is lowered by disposing a filter on the first frame adjacent to the pellicle film will be described.
- the pellicle 500 includes a first frame 511 on which a pellicle film 501 is disposed, and a second frame 513 that supports the first frame 511.
- the pellicle 500 includes a through hole 521 that penetrates the first frame body 511 and a filter 531 that covers the through hole 521 on the surface side where the pellicle film 501 of the first frame body 511 is disposed.
- the filter 531 is disposed on the first frame 511 adjacent to the pellicle film 501.
- the first frame 511 has a groove portion 525 connected to the through hole 521 on the surface facing the second frame 513.
- the groove portion 525 forms a hole 523 connected to the through hole 521 by coupling with the second frame body 513.
- the hole 523 has an opening on the inner surface of the first frame 511.
- a filter 531 is disposed on the first frame 511 adjacent to the pellicle film 501.
- the filter 531 is preferably arranged so that the upper surface of the filter 531 is flush with the pellicle film 501.
- the filter 531 is arranged in an area where a part of the pellicle film 501 and the first frame 511 on the first frame 511 is removed via an adhesive layer (not shown).
- the same material as the pellicle film 101, the substrate 105, and the second frame body 113 described above can be used. Omitted.
- the first frame body 511 and the second frame body 513 are fixed via an adhesive layer 541.
- the thickness of the adhesive layer 541 is preferably as thin as possible within a range in which sufficient adhesion between the first frame 511 and the second frame 513 can be secured, and is, for example, 10 ⁇ m or more and 300 ⁇ m or less.
- the adhesive used for the adhesive layer 541 the same adhesive as that for the adhesive layer 141 can be used, and thus detailed description thereof is omitted.
- the through hole 521 is disposed through the first frame 511 in a region where the pellicle film 501 and the first frame 511 are partially removed. Moreover, in this embodiment, the groove part 525 and the 2nd frame body 513 are arrange
- the through-hole 521 and the hole 523 connecting the through-hole 521 and the opening disposed on the inner surface of the first frame body 511 are changed from normal pressure (0.1 MPa) to a vacuum state (10 ⁇
- the diameter is such that when the pressure is reduced to 4 to 10 ⁇ 6 Pa), the expansion of the pellicle film 501 due to the differential pressure inside and outside the pellicle 500 becomes less than 0.5 mm.
- the diameters of the through hole 521 and the hole 523 are set in consideration of the upper limit value of the pressure loss generated in the through hole 521 when the pressure is reduced.
- the pressure loss generated in the through hole 521 when the pressure is reduced is desirably 1 Pa or less, and more desirably 0.5 Pa or less.
- the filter 531 is installed so as to cover the through hole 521, and most of the pressure loss when the pressure is reduced is generated in the filter 531, and almost no pressure loss occurs in the through hole 521.
- the size of the through hole 521 is adjusted so that the pressure loss in the through hole 521 is 1 Pa or less, more preferably about 0.1 Pa.
- the diameter of the through-hole 521 when the pressure loss inside and outside the pellicle 500 generated in the through-hole 521 is 1 Pa is 480 ⁇ m and the number is four.
- the shape of the through hole 521 is not particularly limited, and may be a circular shape, an elliptical shape, a rectangular shape, a polygonal shape, a trapezoidal shape, or the like.
- the diameter of the through-hole 521 is not particularly limited, but is desirably about 10 to 500 ⁇ m as long as the strength of the first frame does not decrease.
- the number of the through holes 521 is not particularly limited, and can be selected according to the length of the filter and the width of the filter.
- the filter 531 can be the same filter as the filter 131, detailed description thereof is omitted.
- the filter 531 preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the first frame body 511 and securing the aperture ratio of the pellicle 500.
- the width of the filter 531 may be within the width of the first frame 511.
- the total area of the filter 531 is set in consideration of the upper limit value of the pressure loss generated in the filter 531 when the pressure is reduced.
- the pressure loss generated in the filter 531 when the pressure is reduced is desirably 2 Pa or less.
- the length of the filter 531 can be calculated by dividing the area of the filter 531 by the width of the filter 531.
- the range of the length per filter is not particularly limited, but is preferably in the range of 1 cm to 15 cm, more preferably 2 cm to 10 cm.
- the thickness (height) of the filter needs to be considered so that the total thickness (height) of the pellicle and the filter is less than 2.5 mm because the space for mounting the pellicle on the photomask is only 2.5 mm. .
- the thickness is preferably in the range of 0.05 mm to 1.0 mm, more preferably 0.1 mm to 0.4 mm.
- An adhesive layer 543 is disposed on the bottom surface of the second frame 513.
- the adhesive layer 543 is a means for fixing the pellicle 500 to the photomask.
- the thickness of the adhesive layer 543 is preferably as thin as possible within a range in which sufficient adhesion between the photomask and the second frame 513 can be secured, for example, 10 ⁇ m or more and 300 ⁇ m or less. Since the adhesive used for the adhesive layer 543 can be the same adhesive as the adhesive layer 143, detailed description thereof is omitted.
- the filter since the filter is arranged so that the upper surface of the filter 531 is flush with the pellicle film 501, the pellicle film 501, the first frame 511, the adhesive layer 541, the second frame 513, and the adhesive
- the height including the layer 543 is preferably 2 mm or less. As described above, since the space for mounting the pellicle on the photomask is only 2.5 mm high, the height of the pellicle 500 may be 2 mm or less in order to prevent the pellicle film 501 from being damaged. preferable.
- the adhesive layer 543 of the pellicle 500 is protected by a peelable liner 551.
- the through-hole 521 penetrates the first frame body 511 in the region where the pellicle film 501 and a part of the first frame body 511 are removed, and the groove 525 of the first frame body 511 and the second frame 511 Since the hole 523 connected to the through hole 521 is formed by coupling with the frame body 513, the filter 531 is disposed with sufficient adhesion without generating a void other than the through hole 521 on the back surface of the filter 531. Can do.
- the height of the pellicle 500 can be lowered by disposing the filter 531 on the first frame 511 adjacent to the pellicle film 501. Further, by disposing the filter 531 so that the upper surface of the filter 531 is flush with the pellicle film 501, the height of the pellicle 500 can be reduced by the thickness of the filter 531.
- FIG. 14 is a diagram illustrating a manufacturing process of the pellicle 500.
- a substrate 505 is prepared, and a pellicle film 501 is formed on the substrate 505 (FIG. 14A).
- a silicon substrate, a sapphire substrate, a silicon carbide substrate, or the like can be used for the substrate 505.
- the substrate is preferably a silicon substrate, a sapphire substrate, or a silicon carbide substrate, and more preferably a silicon substrate.
- the pellicle film 501 is formed on the substrate 505 so as to have a thickness of 20 nm to 50 nm by vapor deposition. Since EUV light is easily absorbed by any substance, the pellicle film 301 is preferably formed thin so as to have a transmittance of 90.0% or more for light with a wavelength of 5 nm to 30 nm.
- the pellicle film 501 according to the present invention is preferably 90.0% or more for light having a wavelength of about 5 nm to 13.5 nm, more preferably for light having a wavelength of 13.5 ⁇ 0.3 nm. It has transmittance.
- a part of the pellicle film 501 and the substrate 505 at a predetermined position for forming the through hole 521 is removed by etching to expose the substrate 505 (FIG. 14B).
- the surface of the substrate 505 opposite to the surface on which the pellicle film 501 is formed is etched, a part of the substrate 505 is removed, the pellicle film 501 is exposed, and the first frame 511 and the second frame A groove portion 525 connected to the through hole 521 is formed on the surface facing 513.
- a through hole 521 that penetrates the pellicle film 501 and the first frame body 511 is formed at a predetermined position from which the pellicle film 501 and a part of the substrate 505 are removed (FIG. 14C).
- the groove 525 connected to the through hole 521 is disposed on the surface of the first frame 511 that faces the second frame 513, so that the groove 525 and the second frame 513 are connected.
- a hole 523 connected to the through hole 521 is formed by the coupling.
- the diameter of the through-hole 521 and the size of the hole 523 are determined so that the pressure difference between the inside and outside of the pellicle 500 is reduced when the pressure is reduced from normal pressure (0.1 MPa) to the vacuum state at exposure (10 ⁇ 4 to 10 ⁇ 6 Pa).
- the diameter of the pellicle film 501 is less than 0.5 mm.
- the diameter of the through hole 521 and the size of the hole 523 are set in consideration of the resistance due to the filter 531.
- a filter 531 that covers the through-hole 521 is bonded to the region where the pellicle film 501 and part of the substrate 505 are removed (FIG. 14D).
- the filter 531 is preferably a filter having the above-described characteristics, and preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the first frame body 511 and securing the aperture ratio of the pellicle 500. .
- the timing for adhering the filter 531 is not particularly limited, and may be affixed after being fixed to the second frame.
- the total area of the filter 531 is set in consideration of the upper limit value of the pressure loss generated in the filter 531 when the pressure is reduced.
- the pressure loss generated in the filter 531 when the pressure is reduced is desirably 2 Pa or less.
- the length of the filter 531 can be calculated by dividing the area of the filter by the width of the filter 531.
- the range of the length per filter is not particularly limited, but is preferably in the range of 1 cm to 15 cm, more preferably 2 cm to 10 cm.
- the thickness (height) of the filter needs to be considered so that the total thickness (height) of the pellicle and the filter is less than 2.5 mm because the space for mounting the pellicle on the photomask is only 2.5 mm. .
- the thickness is preferably in the range of 0.05 mm to 1.0 mm, more preferably 0.1 mm to 0.4 mm.
- a second frame 513 is prepared.
- An adhesive layer 543 is formed on the bottom surface of the second frame 513.
- a liner 551 that protects the adhesive layer 543 is provided.
- the liner 551 on which the adhesive layer 543 is formed may be prepared, and the liner 551 may be attached to the bottom surface of the second frame body 513 via the adhesive layer 543.
- An adhesive layer 541 is formed on the upper surface of the second frame 513.
- the first frame 511 is fixed to the second frame 513 through the formed adhesive layer 541.
- a hole 523 connected to the through-hole 521 is formed by the combination of the groove 525 formed on the surface facing the second frame 513 and the second frame 513.
- the filter is arranged so that the upper surface of the filter 531 is flush with the pellicle film 501. Therefore, the height including the pellicle film 501, the first frame 511, the adhesive layer 541, the second frame 513, and the adhesive layer 543 is preferably 2 mm or less.
- the through-hole 521 penetrates the first frame body 511 in the region where the pellicle film 501 and a part of the first frame body 511 are removed, and the groove 525 of the first frame body 511 and the second frame 511 Since the hole 523 connected to the through hole 521 is formed by coupling with the frame body 513, the filter 531 is disposed with sufficient adhesion without generating a void other than the through hole 521 on the back surface of the filter 531. Can do.
- the height of the pellicle 500 can be lowered by disposing the filter 531 on the first frame 511 adjacent to the pellicle film 501. Further, by disposing the filter 531 so that the upper surface of the filter 531 is flush with the pellicle film 501, the height of the pellicle 500 can be reduced by the thickness of the filter 531.
- a pellicle 600 of the sixth embodiment As a modification of the fifth embodiment, a pellicle 600 of the sixth embodiment will be described. 15 is a cross-sectional view of the pellicle 600 taken along line AA ′ in FIG. 1 according to one embodiment of the present invention.
- the pellicle 600 according to the sixth embodiment is the same as that according to the fifth embodiment in that the groove 625 of the first frame body 611 is etched to a position in contact with the pellicle film 601 to form a hole 623 having the same height as the through hole 621.
- Different from the pellicle 500 Since other configurations are the same as those of the pellicle 500, a detailed description thereof is omitted.
- the through-hole 621 penetrates the first frame body 611 in a region where the pellicle film 601 and a part of the first frame body 611 are removed, and the groove portion 625 of the first frame body 611 and the second frame 611 Since the hole 623 connected to the through-hole 621 is formed by coupling with the frame body 613, the filter 631 is disposed with sufficient adhesion without generating a gap other than the through-hole 621 on the back surface of the filter 631. Can do.
- the height of the pellicle 600 can be reduced by disposing the filter 631 on the first frame 611 adjacent to the pellicle film 601.
- the height of the pellicle 600 can be reduced by the thickness of the filter 631.
- the through-hole 621 penetrates the pellicle film 601 and the first frame body 611 to form a hole 623 in which the groove portion 625 of the first frame body 611 and the second frame body 613 are directly connected. Therefore, the air permeability is greatly improved.
- FIG. 16 is a diagram illustrating a manufacturing process of the pellicle 600.
- a substrate 605 is prepared, and a pellicle film 601 is formed on the substrate 605 (FIG. 16A). Since the substrate 605 can use the same member as the substrate 505 described above, detailed description thereof is omitted.
- the pellicle film 601 is formed on the substrate 605 so that the film thickness is 20 nm or more and 50 nm or less by vapor deposition. Since the material and configuration of the pellicle film 601 are the same as those of the pellicle film 501 described above, detailed description thereof is omitted.
- a part of the pellicle film 601 and the substrate 605 at predetermined positions for forming the through-hole 621 are removed by etching to expose the substrate 605 (FIG. 16B).
- the surface of the substrate 605 opposite to the surface on which the pellicle film 601 is formed is etched to remove a part of the substrate 605 and penetrate the surface of the first frame 611 facing the second frame 613.
- a hole 621 and a groove 625 connected to the through-hole 621 are collectively formed (FIG. 16C).
- a through hole 621 that penetrates the pellicle film 601 is integrally formed with the groove 625 at a predetermined position where the pellicle film 601 is removed.
- the diameter of the through hole 621 and the size of the hole 623 are different from each other in the pressure difference between the inside and outside of the pellicle 600 when the pressure is reduced from the normal pressure (0.1 MPa) to the vacuum state (10 ⁇ 4 to 10 ⁇ 6 Pa) at the time of exposure.
- the diameter of the pellicle film 601 is less than 0.5 mm.
- the diameter of the through hole 621 and the size of the hole 623 are set in consideration of the resistance by the filter 631.
- a filter 631 that covers the through-hole 621 is bonded to the region from which the pellicle film 601 and part of the substrate 605 have been removed (FIG. 16D). Since the material and configuration of the filter 631 are the same as those of the filter 531 described above, detailed description thereof is omitted.
- a second frame 613 is prepared.
- the materials and configurations of the second frame body 613, the adhesive layer 641, the adhesive layer 643, and the liner 651 are the same as those of the second frame body 513, the adhesive layer 541, the adhesive layer 543, and the liner 551. Omitted.
- the bonding process between the first frame body 611 and the second frame body 613 is the same as that of the pellicle 500 described above, detailed description thereof is omitted.
- the pellicle 700 includes a first frame 711 on which a pellicle film 701 is disposed, and a second frame 713 that supports the first frame 711.
- the pellicle 700 includes a through hole 721 that penetrates the pellicle film 701 and the first frame body 711, and a filter 731 that is disposed on the pellicle film 701 and covers the through hole 721.
- the second frame body 713 includes a first opening 723 disposed on the surface facing the first frame body 711, and a second frame body 713 disposed on the inner surface of the second frame body 713.
- the two openings are connected by a hole 727 disposed inside the second frame body 713, and the first opening 723 is connected to the through hole 721.
- the filter 731 is disposed in the region of the pellicle film 701 on the first frame body 711 via an adhesive layer (not shown).
- the same material as the pellicle film 101, the substrate 105, and the second frame body 113 described above can be used. Omitted.
- the first frame body 711 and the second frame body 713 are fixed via an adhesive layer 741.
- the thickness of the adhesive layer 741 is preferably as thin as possible as long as sufficient adhesion between the first frame body 711 and the second frame body 713 can be ensured, and is, for example, 10 ⁇ m or more and 300 ⁇ m or less.
- the adhesive used for the adhesive layer 741 can be the same adhesive as that used for the adhesive layer 141, and thus detailed description thereof is omitted.
- the through hole 721 is disposed so as to penetrate the pellicle film 701 and the first frame body 711.
- the first opening 723 disposed on the surface of the second frame 713 facing the first frame 711 and the second opening disposed on the inner surface of the second frame 713.
- the two openings are connected by a hole 727 disposed inside the second frame body 713, and the first opening 723 is connected to the through hole 721.
- the diameter of the through-hole 721 and the diameter of the hole 727 disposed inside the through-hole 721 and the second frame 713 are from normal pressure (0.1 MPa) to a vacuum state (10 ⁇ 4 to The diameter is such that when the pressure is reduced to 10 ⁇ 6 Pa), the expansion of the pellicle film 701 due to the differential pressure inside and outside the pellicle 700 becomes less than 0.5 mm.
- the diameters of the through hole 421 and the hole 427 are set in consideration of the upper limit value of the pressure loss generated in the through hole 721 when the pressure is reduced.
- the pressure loss generated in the through hole 721 when the pressure is reduced is desirably 1 Pa or less, and more desirably 0.5 Pa or less.
- the filter 731 is installed so as to cover the through hole 721, and most of the pressure loss when the pressure is reduced is generated in the filter 731, and almost no pressure loss occurs in the through hole 721.
- the size of the through hole 721 is adjusted so that the pressure loss at the through hole 721 is 1 Pa or less, more preferably about 0.1 Pa.
- the diameter of the through-hole 721 when the pressure loss inside and outside the pellicle 400 generated in the through-hole 721 is 1 Pa is 500 ⁇ m and the number is four.
- the shape of the through hole 721 is not particularly limited, and may be a circle, an ellipse, a rectangle, a polygon, a trapezoid, or the like.
- the diameter of the through hole 721 is not particularly limited, but is desirably about 10 to 500 ⁇ m within a range in which the strength of the first frame does not decrease.
- the number of the through holes 721 is not particularly limited, and can be selected according to the length of the filter and the width of the filter.
- the filter 731 can be a filter similar to the filter 131, detailed description thereof is omitted.
- the filter 731 preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 701 and ensuring the aperture ratio of the pellicle 700.
- the width of the filter 731 only needs to be within the width of the first frame 711.
- the total area of the filter 731 is set in consideration of the upper limit value of the pressure loss generated in the filter 731 when the pressure is reduced.
- the pressure loss generated in the filter 731 when the pressure is reduced is desirably 2 Pa or less.
- the length of the filter 731 can be calculated by dividing the area of the filter 731 by the width of the filter 731.
- the range of the length per filter is not particularly limited, but is preferably in the range of 1 cm to 15 cm, more preferably 2 cm to 10 cm.
- An adhesive layer 743 is disposed on the bottom surface of the second frame body 713.
- the adhesive layer 743 is a means for fixing the pellicle 700 to the photomask.
- the thickness of the adhesive layer 743 is preferably as thin as possible within a range in which sufficient adhesion between the photomask and the second frame body 713 can be ensured, for example, 10 ⁇ m or more and 300 ⁇ m or less. Since the adhesive used for the adhesive layer 743 can be the same adhesive as the adhesive layer 143, detailed description thereof is omitted.
- the height including the pellicle film 701, the first frame body 711, the adhesive layer 741, the second frame body 713, and the adhesive layer 743 is preferably 2 mm or less.
- the height of the pellicle 700 may be 2 mm or less in order to prevent the pellicle film 701 from being damaged. preferable.
- the adhesive layer 743 of the pellicle 700 is protected by a peelable liner 751.
- the through hole 721 passes through the pellicle film 701 and the first frame body 711 and is connected to the hole 727 disposed in the second frame body 713, so that the through hole 721 is formed on the back surface of the filter 731.
- the filter 731 can be disposed with sufficient adhesion without generating any other gap.
- the hole 727 is formed in the second frame 713, it can be processed more easily than the first frame.
- the pellicle 700 according to the present embodiment can be manufactured as follows with reference to FIGS. 18 and 19, for example. In addition, the following manufacturing processes are an example, Comprising: The order of a manufacturing process can also be changed as needed.
- 18 and 19 are diagrams showing a manufacturing process of the pellicle 700.
- FIG. A substrate 705 is prepared, and a pellicle film 701 is formed on the substrate 705 (FIG. 18A).
- a silicon substrate, a sapphire substrate, a silicon carbide substrate, or the like can be used for the substrate 705, but the substrate 705 is not limited thereto.
- the pellicle film 701 is formed on the substrate 705 so that the film thickness is 20 nm or more and 50 nm or less by vapor deposition. Since EUV light is easily absorbed by all substances, the pellicle film 701 is preferably formed thin so as to have a transmittance of 90.0% or more for light with a wavelength of 5 nm to 30 nm.
- the pellicle film 701 according to the present invention is preferably 90.0% or more for light having a wavelength of about 5 nm to 13.5 nm, more preferably for light having a wavelength of 13.5 ⁇ 0.3 nm. It has transmittance.
- the pellicle film 701 at a predetermined position for forming the through-hole 721 is removed by etching to expose the substrate 705 (FIG. 18B).
- a surface of the substrate 705 opposite to the surface on which the pellicle film 701 is formed is etched, and a through-hole 721 that penetrates the pellicle film 701 and the first frame body 711 is formed at a predetermined position where the pellicle film 701 is removed. It forms (FIG.18 (c)).
- the first opening 723 is formed on the surface of the second frame 713 facing the first frame 711, and the second opening 725 is formed on the inner surface of the second frame 713. Then, a hole 727 that connects the two openings is formed inside the second frame body 713, and the first opening 723 is connected to the through hole 721.
- the diameter of the through-hole 721 and the size of the hole 727 are such that the pressure difference between the inside and outside of the pellicle 700 is reduced when the pressure is reduced from the normal pressure (0.1 MPa) to the vacuum state during exposure (10 ⁇ 4 to 10 ⁇ 6 Pa).
- the diameter of the pellicle film 701 due to the expansion is less than 0.5 mm.
- the diameter of the through hole 721 and the size of the hole 727 are set in consideration of the resistance due to the filter 731.
- a filter 731 that covers the through-hole 721 is bonded onto the pellicle film 701 (FIG. 18D).
- the filter 731 is preferably a filter having the above-described characteristics, and preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 701 and ensuring the aperture ratio of the pellicle 700.
- the timing at which the filter 731 is bonded is not particularly limited, and may be affixed after being fixed to the second frame.
- a second frame 713 is prepared.
- the first opening 723 is formed on the surface of the second frame 713 facing the first frame 711
- the second opening 725 is formed on the inner surface of the second frame 713.
- a hole 727 that connects the two openings is formed inside the second frame 713 (FIG. 19A).
- an adhesive layer 743 is formed on the bottom surface of the second frame body 713.
- a liner 751 that protects the adhesive layer 743 is disposed (FIG. 19B).
- the liner 751 in which the adhesive layer 743 is formed may be prepared, and the liner 751 may be attached to the bottom surface of the second frame body 713 via the adhesive layer 743.
- An adhesive layer 741 is formed on the upper surface of the second frame 713 (FIG. 19C).
- the first frame 711 is fixed to the second frame 713 through the formed adhesive layer 741 (FIG. 19D).
- the first opening 723 is connected to the through hole 721, and the through hole 721 and the hole 727 form a vent.
- the filter 731, the pellicle film 701, the first frame 711, the adhesive layer 741, the second The height including the frame body 713 and the adhesive layer 743 is preferably 2 mm or less.
- the through hole 721 passes through the pellicle film 701 and the first frame body 711 and is connected to the hole 727 disposed in the second frame body 713, so that the through hole 721 is formed on the back surface of the filter 731.
- the filter 731 can be disposed with sufficient adhesion without generating any other gap.
- the hole 727 is formed in the second frame 713, it can be processed more easily than the first frame.
- a pellicle 800 is shown as a modified example of the seventh embodiment. 20 is a cross-sectional view of the pellicle 800 according to one embodiment of the present invention, taken along line AA ′ in FIG.
- the pellicle 800 includes a first frame body 811 on which a pellicle film 801 is disposed, and a second frame body 813 that supports the first frame body 811.
- the pellicle 800 includes a through hole 821 that penetrates the pellicle film 801 and the first frame body 811, and a filter 831 that is disposed on the pellicle film 801 and covers the through hole 821.
- the second frame body 813 has a groove portion 825 connected to the through-hole 821 on the surface facing the first frame body 811, and the groove portion 825 is connected to the first frame body 811.
- a hole 823 connected to the through hole 821 is formed, and the hole 823 has an opening on the inner surface of the second frame body 813.
- the filter 831 is disposed in the region of the pellicle film 801 on the first frame body 811 via an adhesive layer (not shown).
- the pellicle film 801 As the pellicle film 801, the first frame body 811 and the second frame body 813, the same material as the pellicle film 101, the substrate 105 and the second frame body 113 described above can be used. Omitted.
- the first frame body 811 and the second frame body 813 are fixed via an adhesive layer 841.
- the thickness of the adhesive layer 841 is preferably as thin as possible within a range in which sufficient adhesion between the first frame body 811 and the second frame body 813 can be secured, and is, for example, 10 ⁇ m or more and 300 ⁇ m or less. Further, the adhesive used for the adhesive layer 841 can be the same adhesive as the adhesive layer 141, and thus detailed description thereof is omitted.
- the through hole 821 is disposed to penetrate the pellicle film 801 and the first frame body 811.
- the surface of the second frame 813 that faces the first frame 811 has a groove 825 that is connected to the through hole 821, and the groove 825 is connected to the first frame 811.
- a hole 823 connected to the through hole 821 is formed, and the hole 823 has an opening on the inner surface of the second frame body 813.
- the diameter of the through hole 821 and the size of the hole 823 formed by the coupling of the groove 825 and the first frame body 811 vary from normal pressure (0.1 MPa) to a vacuum state during exposure (10 ⁇ 4.
- the diameter of the pellicle film 801 expands by less than 0.5 mm due to the differential pressure inside and outside the pellicle 800.
- the diameter of the through hole 821 and the size of the hole 823 are set in consideration of the upper limit value of the pressure loss generated in the through hole when the pressure is reduced.
- the pressure loss generated in the through hole 821 when the pressure is reduced is preferably 1 Pa or less, and more preferably 0.5 Pa or less.
- the filter 831 is installed so as to cover the through hole 821, and most of the pressure loss when the pressure is reduced is generated in the filter 831, and almost no pressure loss occurs in the through hole 821.
- the size of the through hole 821 is adjusted so that the pressure loss at the through hole 821 is 1 Pa or less, more preferably about 0.1 Pa.
- the diameter of the through-hole 821 when the pressure loss inside and outside the pellicle 800 generated in the through-hole 821 is 1 Pa is 480 ⁇ m and the number is four.
- the shape of the through hole 821 is not particularly limited, and may be a circular shape, an elliptical shape, a rectangular shape, a polygonal shape, a trapezoidal shape, or the like.
- the diameter of the through hole 821 is not particularly limited, but is desirably about 10 to 500 ⁇ m as long as the strength of the first frame does not decrease.
- the number of through holes 821 is not particularly limited, and can be selected according to the length of the filter and the width of the filter.
- the filter 831 can be the same filter as the filter 131, detailed description thereof is omitted.
- the filter 831 preferably has a width of 1 mm or more and 4 mm or less from the viewpoint of ensuring adhesion to the pellicle film 801 and ensuring the aperture ratio of the pellicle 800.
- the width of the filter 831 only needs to be within the width of the first frame 811.
- the total area of the filter 831 is set in consideration of the upper limit value of the pressure loss generated in the filter 831 when the pressure is reduced.
- the pressure loss generated in the filter 831 when the pressure is reduced is desirably 2 Pa or less.
- the length of the filter 831 can be calculated by dividing the area of the filter 831 by the width of the filter 831.
- the range of the length per filter is not particularly limited, but is preferably in the range of 1 cm to 15 cm, more preferably 2 cm to 10 cm.
- An adhesive layer 843 is disposed on the bottom surface of the second frame 813.
- the adhesive layer 843 is a means for fixing the pellicle 800 to the photomask.
- the thickness of the adhesive layer 843 is preferably as thin as possible within a range in which sufficient adhesion between the photomask and the second frame body 813 can be ensured, for example, 10 ⁇ m or more and 300 ⁇ m or less. Since the adhesive used for the adhesive layer 843 can be the same adhesive as the adhesive layer 143, detailed description thereof is omitted.
- the height including the filter 831, the pellicle film 801, the first frame body 811, the adhesive layer 841, the second frame body 813, and the adhesive layer 843 is preferably 2 mm or less.
- the height of the pellicle 800 may be 2 mm or less in order to prevent the pellicle film 801 from being damaged. preferable.
- the adhesive layer 843 of the pellicle 800 is protected by a peelable liner 851.
- the through hole 821 penetrates the pellicle film 801 and the first frame body 811 and is formed by coupling the groove portion 825 formed in the second frame body 813 and the first frame body 811.
- the filter 831 can be disposed with sufficient adhesion without generating a void other than the through-hole 821 on the back surface of the filter 831.
- the groove portion 825 is formed in the second frame body 813, it can be processed more easily than the first frame body.
- the manufacturing method of the pellicle 800 is different from the manufacturing method of the pellicle 700 in that the groove 825 is formed in the second frame 813.
- a groove 825 connected to the through hole 821 is formed on the surface of the second frame 813 that faces the first frame 811, and the first frame 811 is attached via the adhesive layer 841.
- a hole 823 which is fixed to the second frame body 813 and connected to the through hole 821 and which has an opening on the inner surface of the second frame body 813 is formed. Since other manufacturing processes are the same as those of the pellicle 700, a detailed description thereof is omitted.
- FIG. 21 is a cross-sectional view of the pellicle 900 according to one embodiment of the present invention, taken along line AA ′ in FIG.
- the pellicle 900 includes a first frame body 911 in which a pellicle film 901 is disposed, and a second frame body 913 that supports the first frame body 911. Further, the pellicle 900 is a filter that covers the through-hole 921 adjacent to the pellicle film 901 on the surface side where the pellicle film 901 of the first frame 911 is disposed and the through-hole 921 that penetrates the first frame 911. 931.
- the filter 931 is preferably arranged so that the upper surface of the filter 931 is flush with the pellicle film 901.
- the filter 931 is disposed in the region of the pellicle film 901 on the first frame body 911 via an adhesive layer (not shown).
- the second frame body 913 includes a first opening 923 disposed on a surface facing the first frame body 911 and a second opening 925 disposed on an inner surface of the second frame body 913.
- the two openings are connected by a hole 927 arranged inside the second frame 913, and the first opening 923 is connected to the through hole 921. Since other configurations are the same as those described in the fifth and seventh embodiments, detailed description thereof is omitted.
- the through hole 921 passes through the first frame body 911 and is connected to the hole 927 disposed in the second frame body 913, a void other than the through hole 921 is generated on the back surface of the filter 931. Without any problem, the filter 931 can be disposed with sufficient adhesion. In the present embodiment, since the hole 927 is formed in the second frame body 913, it can be processed more easily than the first frame body. Further, by disposing the pellicle film 901 on the first frame 911, the height of the pellicle 900 can be reduced by the thickness of the filter 931.
- the manufacturing method of the method for manufacturing the pellicle 900 is the same as that of the fifth embodiment until the step of forming the through hole 921 on the surface of the first frame 911 facing the second frame 913. Is omitted.
- the first embodiment is different from the fifth embodiment in that a groove portion connected to the through hole 921 is not formed in the first frame body 911.
- a first opening 923 is formed on the surface of the second frame 913 facing the first frame 911
- a second opening 925 is formed on the inner surface of the second frame 913
- a hole 927 that connects the two openings is formed inside the second frame body 913, and the first opening 923 is connected to the through hole 921. Since other manufacturing processes are the same as those of the pellicle 700, a detailed description thereof is omitted.
- the pellicle 1000 includes a first frame body 1011 on which a pellicle film 1001 is disposed, and a second frame body 1013 that supports the first frame body 1011.
- the pellicle 1000 is a filter that covers the through-hole 1021 adjacent to the pellicle film 1001 on the surface side where the pellicle film 1001 of the first frame 1011 is disposed and the through-hole 1021 that penetrates the first frame body 1011.
- the filter 1031 is preferably arranged so that the upper surface of the filter 1031 is flush with the pellicle film 1001.
- the filter 1031 is disposed in the region of the pellicle film 1001 on the first frame body 1011 via an adhesive layer (not shown).
- the second frame body 1013 has a groove portion 1025 connected to the through hole 1021 on the surface facing the first frame body 1011, and the groove portion 1025 is coupled to the first frame body 1011 by the through hole 1021.
- a hole 1023 connected to the second frame body 1013 is formed on the inner surface of the second frame body 1013. Since other configurations are the same as those described in the fifth and eighth embodiments, detailed description thereof is omitted.
- the through hole 1021 passes through the first frame body 1011 and is connected to the hole 1023 formed by the coupling of the groove 1025 formed in the second frame body 1013 and the first frame body 1011. Therefore, the filter 1031 can be disposed with sufficient adhesion without generating a gap other than the through hole 1021 on the back surface of the filter 1031.
- the groove 1025 is formed in the second frame 1013, it can be processed more easily than the first frame. Further, by disposing the pellicle film 1001 on the first frame body 1011, the height of the pellicle 1000 can be reduced by the thickness of the filter 1031.
- the manufacturing method of the pellicle 1000 is the same as that of the fifth embodiment up to the step of forming the through hole 1021 on the surface of the first frame 1011 facing the second frame 1013. Is omitted.
- the first embodiment differs from the fifth embodiment in that a groove portion connected to the through hole 1021 is not formed in the first frame body 1011. Further, a groove 1025 connected to the through hole 1021 is formed on the surface of the second frame 1013 facing the first frame 1011, and the first frame 1011 is connected to the second frame via the adhesive layer 1041.
- a hole 1023 fixed to the body 1013 and connected to the through hole 1021 and having an opening on the inner surface of the second frame body 1013 is formed. Since other manufacturing processes are the same as those of the pellicle 800, a detailed description thereof is omitted.
- the pellicle film of the pellicle according to the present invention is an unprecedented thin film having a film thickness of 20 nm to 50 nm, and thus it is difficult to fix it to a photomask by hand like a conventional pellicle. . Therefore, non-contact sticking to a photomask is required using a dedicated sticking device.
- a non-contact sticking means to a photomask is provided in the second frame.
- FIG. 23 is a schematic diagram of the second frame 1113 used in the pellicle 1100 according to the embodiment of the present invention, and the upper diagram is a perspective view of the upper surface side of the second frame 1113, and the lower diagram. The figure is a perspective view of the bottom surface side of the second frame 1113.
- the pellicle 1100 includes a first frame 1111 on which a pellicle film 1101 is disposed, and a second frame 1113 that supports the first frame 1111.
- the pellicle 1100 includes a through hole 1121 that penetrates the pellicle film 1101 and the first frame body 1111, and a filter 1131 that covers the through hole 1121.
- the filter 1131 is disposed on the surface of the first frame 1111 on which the pellicle film 1101 is disposed via an adhesive layer (not shown).
- a groove 1114 is provided on the upper surface of the second frame 1113.
- the shape of the groove 1114 viewed from the upper surface (thickness direction) of the second frame 1113 is an endless shape that goes around the shape of the second frame 1113.
- the second frame 1113 has a through hole 1114A and a through hole 1114B.
- the through hole 1114 ⁇ / b> A and the through hole 1114 ⁇ / b> B penetrate between the bottom surface of the groove 1114 and the outer surface of the second frame body 1113, respectively.
- the through holes 1114 ⁇ / b> A and 1114 ⁇ / b> B may each penetrate between the side surface of the groove 1114 and the outer surface of the second frame 1113. Further, either one of the through holes 1114A and 1114B may be omitted. That is, in the second frame 1113, two through holes (through holes 1114A and 1114B) are connected to one groove (groove 1114), but this embodiment is not limited to this mode. In the present embodiment, it is sufficient that at least one through hole is connected to one groove (groove 1114, groove 1116).
- a groove 1116 is provided on the bottom surface of the second frame 1113 opposite to the top surface.
- the shape of the groove 1116 is an endless shape that goes around the shape of the second frame 1113 when viewed from the thickness direction, similarly to the shape of the groove 1114.
- the second frame 1113 has a through hole 1116A and a through hole 1116B.
- the through hole 1116 ⁇ / b> A and the through hole 1116 ⁇ / b> B each penetrate between the bottom surface of the groove 1116 and the outer surface of the second frame 1113.
- the variations of the through holes 1116A and 1116B are the same as the variations of the through holes 1114A and 1114B.
- the second frame body 1113 is suitable for use in manufacturing the pellicle 1100 by fixing (supporting) the pellicle film 1101 and the first frame body 1111.
- the second frame 1113 is provided with a groove 1114 on an upper surface that is a surface facing the first frame 1111, and through holes 1114 ⁇ / b> A and 1114 ⁇ / b> B connected to the groove 1114. For this reason, when the first frame 1111 is fixed to the second frame 1113, the inside of the groove 1114 is reduced in pressure through the through holes 1114A and 1114B (for example, by an evacuation unit such as a vacuum pump). The pressure between the frame body 1113 and the first frame body 1111 can be reduced.
- a pressing force can be applied between the second frame 1113 and the first frame 1111, so that the front and back surfaces of the second frame 1113 and the first frame 1111 (that is, The upper surface and the bottom surface of the second frame 1113 and the surface of the first frame 1111 on which the pellicle film 1101 is disposed and the bottom surface of the first frame 1111 are fixed without contacting each other. Can do.
- the second frame 1113 and the first frame 1111 are fixed through an adhesive layer 1141.
- the second frame body 1113 and the pellicle film 1101 can be pressed through the adhesive layer 1141, so that the second frame body 1113 and the first frame body 1111 can be firmly fixed. it can.
- FIG. 23 the first frame 1111 having the same configuration as that of the first frame 111 shown in the first embodiment has been described. However, the present embodiment is similar to that shown in the second to eighth embodiments. The present invention can also be applied to a second frame that engages with the first frame.
- Method for manufacturing pellicle 1100 The basic steps of the method for manufacturing the pellicle 1100 of this embodiment are the same as those of the first embodiment. Similar to the first embodiment, the first frame 1111 is formed.
- a second frame 1113 is prepared.
- a groove 1114 is formed on the upper surface of the second frame 1113, and through holes 1114 ⁇ / b> A and 1114 ⁇ / b> B penetrating between the side surface of the groove 1114 and the outer surface of the second frame 1113 are formed.
- a groove 1116 is formed on the bottom surface of the second frame 1113, and through holes 1116 ⁇ / b> A and 1116 ⁇ / b> B penetrating between the side surface of the groove 1116 and the outer surface of the second frame 1113 are formed.
- An adhesive layer 1143 is formed on the bottom surface of the second frame 1113. At this time, the adhesive layer 1143 is formed so that the groove 1116 provided on the bottom surface of the second frame 1113 is not covered with the adhesive layer 1143.
- a liner 1151 for protecting the adhesive layer 1143 is provided.
- the liner 1151 in which the adhesive layer 1143 is formed may be prepared, and the liner 1151 may be attached to the bottom surface of the second frame 1113 via the adhesive layer 1143.
- An adhesive layer 1141 is formed on the upper surface of the second frame 1113. At this time, the adhesive layer 1141 is formed so that the groove 1114 provided on the upper surface of the second frame 1113 is not covered with the adhesive layer 1141.
- the first frame 1111 is fixed to the second frame 1113 with the adhesive layer 1141 interposed therebetween. Since the space for mounting the pellicle on the photomask is only 2.5 mm high, in this embodiment, the space is arranged on the second frame 1113 and on the lower surface of the second frame 1113.
- the total height of the adhesive layer 1143 is preferably 2 mm or less.
- the step of fixing the first frame 1111 to the second frame 1113 is performed using, for example, the pellicle manufacturing apparatus 5000 shown in FIG.
- the pellicle manufacturing apparatus 5000 includes a vacuum chamber 5100, a mounting table 5200 disposed in the vacuum chamber 5100, a supply pipe 5110 for supplying gas to the vacuum chamber 5100, and the gas in the vacuum chamber 5100 outside the vacuum chamber 5100. And discharge pipes 5120A and 5120B for discharging to the outside. Ends (not shown) of the discharge pipes 5120A and 5120B outside the vacuum chamber 5100 are connected to exhaust means (not shown) such as a vacuum pump.
- the second frame 1113 On the mounting table 5200 in the vacuum chamber 5100, the second frame 1113 is mounted. Specifically, the liner 1151 of the second frame 1113 and the mounting table 5200 are placed in contact with each other. A composite member of the pellicle film 1101 and the first frame 1111 is disposed on the adhesive layer 1141 of the second frame 1113.
- a composite member of a first frame 1111 that is a silicon wafer (for example, an 8-inch silicon wafer) and a pellicle film 1101 that is a polycrystalline silicon film (p-Si film) is used as a composite member.
- Cuts C1 and C2 for cutting the first frame 1111 to a predetermined size are provided at predetermined positions of the composite member.
- the first frame 1111 is preferably cut into a predetermined size before being bonded to the second frame 1113 (hereinafter, this operation is also referred to as “trimming”).
- discharge pipes 5120A and 5120B each have an end portion in the vacuum chamber 5100. These end portions can be connected to two through holes 1114A and 1114B for decompressing the inside of the groove 1114 of the second frame 1113, respectively.
- the second frame body 1113 is mounted on the mounting table 5200 in the vacuum chamber 5100, and the first frame body 1111 is disposed above the second frame body 1113.
- the adhesive layer 1131 and the first frame 1111 are arranged so as not to contact each other.
- the second frame 1113 and the first frame 1111 are positioned by a known means.
- the first frame body 1111 is arranged so as to be fitted by the opening surrounded by the second frame body 1113.
- the end portions of the discharge pipes 5120A and 5120B are respectively connected to two through holes 1114A and 1114B for decompressing the inside of the groove 1114 of the second frame body 1113 (frame body).
- the composite member of the first frame body 1111 and the pellicle film 1101 is cut into the same size as the second frame body 1113 and cut by C1 and C2.
- the inside of the vacuum chamber 5100 is pressurized by supplying gas from the supply pipe 910 into the vacuum chamber 5100.
- a vacuum pump (not shown) connected to the end of the discharge pipes 5120A and 5120B outside the vacuum chamber 5100, the two penetrations of the discharge pipes 5120A and 5120B and the second frame 1113 are performed.
- the inside of the groove 1114 provided on the upper surface of the second frame 1113 is decompressed through the holes 1114A and 1114B.
- the degree of pressurization and decompression is between the first frame 1111 and the second frame 1113 caused by the difference (differential pressure) between the total pressure in the vacuum chamber 5100 and the pressure in the groove 1114.
- the pressing force (the force applied to the entire second frame 1113) is adjusted to be, for example, about 2N. Due to the differential pressure, a pressing force is generated between the first frame body 1111 and the second frame body 1113 so that the adhesive layer 1141 of the second frame body 1113 and the first frame body 1111 are bonded. .
- first frame body 1111 and the second frame body 1113 can be bonded to each other without contacting the front surface and the back surface. Note that the order of the above operations can be changed as appropriate.
- the method of arranging the pellicle on the photomask of this embodiment is opposite to the surface of the pellicle 1100 of this embodiment that supports the first frame 1111 on which at least the pellicle film 1101 of the second frame 1113 is arranged.
- the pressing force between the pellicle 1100 and the photomask can be applied by reducing the pressure inside the groove 1116. And it can fix both, without contacting a back surface.
- the pressure reduction in the fixing step is preferably performed in a state where the pellicle 1100 and the photomask are arranged in a pressurized atmosphere.
- the difference (differential pressure) between the pressure of the entire atmosphere in which the pellicle 1100 and the photomask are arranged and the pressure inside the groove 1116 can be increased, the pellicle 1100 and the photomask The pressing force between the two can be increased. For this reason, both can be fixed more easily.
- the pressing force between the pellicle 1100 and the photomask (the force applied to the entire second frame 1113) is preferably 1N or more, and more preferably 2N or more.
- the pressing force between the pellicle 1100 and the photomask (the force applied to the entire second frame 1113) is more preferably 10N or more, and particularly preferably 20N or more.
- the upper limit of the pressing force between the pellicle 1100 and the photomask (the force applied to the entire second frame 1113) is not particularly limited, but is, for example, 500 N, preferably 400 N from the viewpoint of productivity. .
- FIG. 25 is a cross-sectional view conceptually showing an example of a photomask manufacturing apparatus suitable for the method of arranging the pellicle on the photomask of this embodiment.
- a photomask manufacturing apparatus 6000 shown in FIG. 25 includes a vacuum chamber 6100, a supply pipe 6110 for supplying gas to the vacuum chamber 6100, and a discharge pipe 6120A for discharging the gas in the vacuum chamber 6100 to the outside of the vacuum chamber 6100. And 6120B. Ends (not shown) of the discharge pipes 6120A and 6120B outside the vacuum chamber 6100 are connected to exhaust means (not shown) such as a vacuum pump.
- a photomask 6500 is disposed in the vacuum chamber 6100.
- a photomask including a supporting substrate, a reflective layer stacked over the supporting substrate, and an absorber layer formed over the reflective layer is used.
- the photomask 6500 has a front surface (light irradiation surface; that is, a surface on which the reflective layer and the absorber layer are provided) in the vacuum chamber 6100, and a back surface (surface opposite to the light irradiation surface; , The support substrate side surface).
- a pellicle 1100 from which the liner 1151 has been removed is disposed above the reflective layer and the absorption layer of the photomask 6500. Specifically, the adhesive layer 1143 side of the pellicle 1100 is arranged in a direction facing the front surface (light irradiation surface) of the photomask 6500.
- each of the discharge pipes 6120A and 6120B has an end in the vacuum chamber 6100.
- Each of these end portions can be connected to two through holes for decompressing the inside of the groove 1116 provided in the bottom surface of the second frame 1113.
- a pellicle 1100 obtained by removing the liner 1151 is prepared.
- the photomask 6500 is placed in the vacuum chamber 6100 so that the front surface (light irradiation surface) faces upward.
- a machine, a jig, Arrange so that hands do not touch.
- the pellicle 1100 is placed above the photomask 6500.
- the adhesive layer 1143 and the photomask 6500 are arranged so as not to contact each other.
- the pellicle 1100 and the photomask 6500 are positioned by a known means.
- the end portions of the discharge pipes 6120 ⁇ / b> A and 6120 ⁇ / b> B are respectively connected to two through holes for decompressing the inside of the groove 1116 on the bottom side of the second frame 1113.
- the inside of the vacuum chamber is pressurized by supplying gas from the supply pipe 6110 into the vacuum chamber 6100.
- a vacuum pump (not shown) connected to the end of the discharge pipes 6120A and 6120B outside the vacuum chamber 6100, the two penetrations of the discharge pipes 6120A and 6120B and the second frame 1113 are performed.
- the inside of the groove 1116 provided on the bottom surface of the second frame 1113 is decompressed through the holes 1116A and 1116B.
- the degree of pressurization and depressurization depends on the pressing force between the pellicle 1100 and the photomask 6500 (second pressure) generated by the difference (differential pressure) between the total pressure in the vacuum chamber 6100 and the pressure in the groove 1116.
- the force applied to the entire frame 1113 is adjusted to be, for example, about 2N.
- the pressure difference causes a pressing force between the pellicle 1100 and the photomask 6500, and the adhesive layer 1143 of the pellicle 1100 and the photomask 6500 are bonded.
- the pellicle 1100 and the photomask 6500 can be bonded together without contacting the front and back surfaces. Thereby, both can be adhered while suppressing adhesion of foreign matter to the pellicle 1100 and the photomask 6500. Note that the order of the above operations can be changed as appropriate.
- the pellicle 1100 is formed by bonding the first frame body 1111 and the second frame body 1113 and then arranged on the photomask 6500.
- the method of arranging the pellicle on the photomask according to the present invention is not limited to this, and the order can be changed. As an example, an example in which a pellicle is completed by bonding the first frame to the second frame after the second frame is arranged on the photomask will be described.
- the second frame 1113 provided with a groove 1116 on the surface opposite to the surface supporting the first frame 1111 on which the pellicle film 1101 is disposed, and a photomask are provided.
- the second frame 1113 supports the first frame 1111 on which the pellicle film 1101 is arranged.
- the second frame 1113 includes a groove 1114 provided on the upper surface, a through hole 1114A and a through hole 1114B penetrating between the bottom surface of the groove 1114 and the outer surface of the second frame 1113, A groove 1116 provided on the bottom surface opposite to the top surface, and a through hole 1116A and a through hole 1116B penetrating between the bottom surface of the groove 1116 and the outer surface of the second frame 1113 are provided.
- the pressing force between the second frame 1113 and the photomask can be exerted by reducing the pressure inside the groove 1116, so that the second Both can be fixed via the adhesive layer 1143 without contacting the frame body 1113 and the front and back surfaces of the photomask.
- the pressure reduction in the fixing process of the second frame 1113 is performed in a state where the second frame 1113 and the photomask are arranged in a pressurized atmosphere.
- the difference (differential pressure) between the pressure of the entire atmosphere in which the second frame 1113 and the photomask are arranged and the pressure inside the groove 1116 can be increased, the second The pressing force between the frame 1113 and the photomask can be increased. For this reason, both can be fixed more easily.
- the pressing force between the second frame 1113 and the photomask is preferably 1N or more, and more preferably 2N or more.
- the pressing force between the second frame 1113 and the photomask is more preferably 10N or more, and particularly preferably 20N or more.
- the upper limit of the pressing force between the second frame 1113 and the photomask is not particularly limited, but is, for example, 500 N, preferably 400 N from the viewpoint of productivity.
- the pressure between the second frame body 1113 and the first frame body 1111 is reduced by reducing the pressure inside the groove 1114 (for example, by exhaust means such as a vacuum pump) through the through holes 1114A and 1114B.
- a pressing force can be applied between the second frame 1113 and the first frame 1111, so that the front and back surfaces of the second frame 1113 and the first frame 1111 (that is, The upper surface and the bottom surface of the second frame 1113 and the surface of the first frame 1111 on which the pellicle film 1101 is disposed and the bottom surface of the first frame 1111 are fixed without contacting each other.
- the second frame 1113 and the first frame 1111 are fixed through an adhesive layer 1141.
- the second frame body 1113 and the pellicle film can be pressed through the adhesive layer 1141, so that the second frame body 1113 and the first frame body 1111 can be firmly fixed. .
- FIG. 26 is a cross-sectional view conceptually showing an example of a photomask manufacturing apparatus 7000 suitable for the pellicle placement method on the photomask of this embodiment.
- a photomask manufacturing apparatus 7000 shown in FIG. 26 includes a vacuum chamber 7100, a supply pipe 7110 for supplying gas to the vacuum chamber 7100, and a discharge pipe 7120A for discharging the gas in the vacuum chamber 7100 to the outside of the vacuum chamber 7100. And 7120B, and discharge pipes 7220A and 7220B. Ends (not shown) outside the vacuum chamber 7100 of the discharge pipes 7120A and 7120B and the discharge pipes 7220A and 7220B are connected to exhaust means (not shown) such as a vacuum pump.
- a photomask 7500 is disposed in the vacuum chamber 7100.
- a photomask including a supporting substrate, a reflective layer stacked over the supporting substrate, and an absorber layer formed over the reflective layer is used.
- the front surface (light irradiation surface; that is, the surface on which the reflection layer and the absorber layer are provided) is up and the back surface (surface opposite to the light irradiation surface) is inside the vacuum chamber 7100; , The support substrate side surface).
- a second frame 1113 from which the liner 1151 has been removed is disposed above the reflective layer and the absorption layer of the photomask 7500. Specifically, the adhesive layer 1143 side of the second frame 1113 is arranged in a direction facing the front surface (light irradiation surface) of the photomask 7500.
- discharge pipes 7120A and 7120B each have an end portion in the vacuum chamber 7100. Each of these end portions can be connected to two through holes for decompressing the inside of the groove 1116 provided in the bottom surface of the second frame 1113.
- a second frame 1113 obtained by removing the liner 1151 is prepared.
- the photomask 7500 is placed in the vacuum chamber 7100 so that the front surface (light irradiation surface) faces upward.
- a machine, a jig, Arrange so that hands do not touch.
- the second frame 1113 is arranged above the photomask 7500.
- the adhesive layer 1143 and the photomask 7500 are arranged so as not to contact each other.
- the second frame 1113 and the photomask 7500 are positioned by a known means.
- the end portions of the discharge pipes 7120A and 7120B are connected to two through holes for decompressing the inside of the groove 1116 on the bottom side of the second frame 1113, respectively.
- the inside of the vacuum chamber 7100 is pressurized by supplying gas from the supply pipe 7110 into the vacuum chamber 7100.
- a vacuum pump (not shown) connected to the end of the discharge pipes 7120A and 7120B outside the vacuum chamber 7100, the two penetrations of the discharge pipes 7120A and 7120B and the second frame 1113 are performed.
- the inside of the groove 1116 provided on the bottom surface of the second frame 1113 is decompressed through the holes 1116A and 1116B.
- the degree of pressurization and depressurization is the pressing force between the second frame 1113 and the photomask 7500 generated by the difference (differential pressure) between the total pressure in the vacuum chamber 7100 and the pressure in the groove 1116. Is adjusted to be, for example, about 2N.
- the pressure difference causes a pressing force between the second frame 1113 and the photomask 7500, and the adhesive layer 1143 of the pellicle 1100 and the photomask 7500 are bonded.
- the first frame body 1111 is disposed above the second frame body 1113.
- the adhesive layer 1141 and the first frame 1111 are arranged so as not to contact each other.
- the second frame 1113 and the first frame 1111 are positioned by a known means.
- the first frame body 1111 is arranged so as to be fitted by the opening surrounded by the second frame body 1113.
- the end portions of the discharge pipes 7220A and 7220B are connected to two through holes 1114A and 1114B for decompressing the inside of the groove 1114 of the second frame body 1113 (frame body), respectively.
- the inside of the vacuum chamber 7100 is pressurized by supplying gas from the supply pipe 7110 into the vacuum chamber 7100.
- a vacuum pump (not shown) connected to the end of the discharge pipes 7220A and 7220B outside the vacuum chamber 7100, the two penetrations of the discharge pipes 7220A and 7220B and the second frame 1113 are performed.
- the inside of the groove 1114 provided on the upper surface of the second frame 1113 is decompressed through the holes 1114A and 1114B.
- the degree of pressurization and depressurization is determined between the first frame body 1111 and the second frame body 1113 caused by the difference (differential pressure) between the total pressure in the vacuum chamber 7100 and the pressure in the groove 1114.
- the pressing force (the force applied to the entire second frame 1113) is adjusted to be, for example, about 2N. Due to the differential pressure, a pressing force is generated between the first frame body 1111 and the second frame body 1113 so that the adhesive layer 1141 of the second frame body 1113 and the first frame body 1111 are bonded. (FIG. 26 (b)).
- the composite member of the first frame body 1111 and the pellicle film 1101 is cut into the same size as the second frame body 1113 and cut by C1 and C2.
- the pellicle 1100 and the photomask 7500 can be bonded together without contacting the front and back surfaces. Thereby, both can be adhered while suppressing adhesion of foreign matter to the pellicle 1100 and the photomask 7500. Note that the order of the above operations can be changed as appropriate.
- the pellicle according to the present invention is disposed on the reticle surface of a photomask, the photomask is disposed at a predetermined position of the exposure apparatus, and the pellicle is accommodated in a gap having a distance of 3 mm or less from the reticle surface.
- the pattern is exposed to the resist by irradiating the photomask on which the resist is formed with light of 5 nm to 30 nm and irradiating the substrate on which the resist layer is formed with the light emitted from the reticle surface of the photomask on which the pellicle is disposed. be able to.
- the pellicle film of the pellicle according to the present invention is an unprecedented thin film having a thickness of 20 nm to 50 nm, it is difficult to fix the pellicle film to the photomask by hand like the conventional pellicle. Therefore, non-contact pasting is required using a dedicated pasting device.
- the photomask with the pellicle according to the present invention is disposed at a predetermined position of the exposure apparatus.
- the pellicle is accommodated in a gap having a distance of 3 mm or less, particularly 2.5 mm, from the reticle surface.
- a base material on which a resist layer is formed is introduced into the exposure apparatus, and the exposure apparatus is evacuated to about 10 ⁇ 4 to 10 ⁇ 6 Pa. At this time, air flows out from the inside of the pellicle according to the present invention attached to the photomask.
- the pellicle according to the present invention uses a member having a L-shaped cross section as the second frame, and makes the height of the filter approximately equal to the height of the second frame. Since the filter is disposed with sufficient adhesion without generating a void other than the through hole on the back surface of the pellicle, the inside of the pellicle can be evacuated without damaging the pellicle film.
- EUV light of 5 nm to 30 nm is irradiated onto the photomask on which the pellicle is arranged. Since the photomask has a multilayer reflective film formed below the reticle surface, EUV light incident on the reticle surface is reflected by the multilayer reflective film, and EUV light reflecting the pattern formed by the absorber on the reticle surface is reflected. The light passes through the pellicle from the reticle surface and exits.
- the pattern By irradiating the light emitted from the reticle surface of the photomask onto the substrate on which the resist layer is formed, the pattern can be exposed on the resist. Thereby, unprecedented fine processing is realized.
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Abstract
Description
式(1)中、Iは透過光強度、I0は入射光強度を示す。透過光強度I及び入射光強度I0、ペリクル膜の厚みd、密度ρ、及びペリクル膜の質量吸収係数μには、以下の式(2)で表される関係が成り立つ。
図1は、本発明の一実施形態に係るペリクル100の模式図(斜視図)ある。図2は、ペリクル100の図1の線分AA’における断面図である。図2(a)はペリクル100の図1の線分AA’における断面図であり、図2(b)は図2(a)の一部拡大図である。ペリクル100は、ペリクル膜101を配置した第1の枠体111と、第1の枠体111を支持する第2の枠体113と、を備える。また、ペリクル100は、ペリクル膜101と第1の枠体111とを貫通する貫通孔121と、ペリクル膜101上に配置され、貫通孔121を覆うフィルタ131と、を備える(図2(a))。フィルタ131は、第1の枠体111上のペリクル膜101の領域に接着層137を介して配置される(図2(b))。なお、図2は、第1の枠体111のペリクル膜101が配置された面とは反対側の面に第2の枠体113を備えているが、第1の枠体111の側面側に第2の枠体113を備えてもよい。
本実施形態に係るペリクル100は、例えば、図3及び図4を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図3及び図4は、ペリクル100の製造工程を示す図である。
基板105を準備し、基板105上にペリクル膜101を形成する(図3(a))。基板105には、上述したように、例えば、シリコン基板、サファイア基板、炭化ケイ素基板等を用いることができるが、これらに限定されるものではない。
フィルタ131は、上述した特性を有するフィルタが好ましく、ペリクル膜101への接着性を確保するとともに、ペリクル100の開口率を確保する観点から、幅を1mm以上4mm以下とすることが好ましい。フィルタ131を接着するタイミングは特に制限はなく、第2の枠体に固定した後で貼り付けてもよい。
実施形態1のペリクル100においては、貫通孔121が第2の枠体113よりも内側に配置されていたため、第1の枠体111の幅を第2の枠体113の幅より広くする必要がある。上述したように、ペリクルをフォトマスクに設置したときに、第1の枠体の幅はペリクルの開口率に影響する。本実施形態においては、第1の枠体の幅を狭くしつつ、貫通孔を配置する例について説明する。
本実施形態に係るペリクル200は、例えば、図6及び図7を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図6及び図7は、ペリクル200の製造工程を示す図である。
基板205を準備し、基板205上にペリクル膜201を形成する(図6(a))。基板205には、上述したように、例えば、シリコン基板、サファイア基板、炭化ケイ素基板等を用いることができるが、これらに限定されるものではない。
実施形態2の変形例として、実施形態3のペリクル300について説明する。図8は、本発明の一実施形態に係るペリクル300の図1の線分AA’における断面図である。実施形態3のペリクル300は、第1の枠体311の溝部325をペリクル膜301に接する位置までエッチングし、貫通孔321と同程度の高さの孔323を形成する点で、実施形態2のペリクル200と異なる。その他の構成については、ペリクル200と同様であるため、詳細な説明は省略する。
本実施形態に係るペリクル300は、例えば、図9を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図9は、ペリクル300の製造工程を示す図である。基板305を準備し、基板305上にペリクル膜301を形成する(図9(a))。基板305は、上述した基板205と同様の部材を用いることができるため、詳細な説明は省略する。
実施形態2のペリクル200の別の変形例について説明する。図10は、本発明の一実施形態に係るペリクル400の図1の線分AA’における断面図である。実施形態4のペリクル400は、第1の枠体411と第2の枠体413との間に設ける接着層441を部分的な塗布により形成することにより、貫通孔421に接続し、ペリクル400の内側に開口した孔423を形成する点で、実施形態2のペリクル200と異なる。その他の構成については、ペリクル200と同様であるため、詳細な説明は省略する。
本実施形態に係るペリクル400は、例えば、図11を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図11は、ペリクル400の製造工程を示す図である。基板405を準備し、基板405上にペリクル膜401を形成する(図11(a))。基板405は、上述した基板205と同様の部材を用いることができるため、詳細な説明は省略する。
実施形態1及び実施形態2においては、ペリクル膜と第1の枠体とを貫通する貫通孔を覆うため、フィルタをペリクル膜の上面に配置した。しかし、上述したように、フォトマスクにペリクルを装着するための空間が2.5mmの高さしか存在していない。本実施形態においては、ペリクル膜に隣接して、第1の枠体上にフィルタを配置することにより、ペリクルの高さを低くする例について説明する。
本実施形態に係るペリクル500は、例えば、図14を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図14は、ペリクル500の製造工程を示す図である。基板505を準備し、基板505上にペリクル膜501を形成する(図14(a))。基板505には、上述したように、例えば、シリコン基板、サファイア基板、炭化ケイ素基板等を用いることができる。これらに限定されるものではないが、基板としては、シリコン基板、サファイア基板、炭化ケイ素基板が好ましく、シリコン基板がより好ましい。
実施形態5の変形例として、実施形態6のペリクル600について説明する。図15は、本発明の一実施形態に係るペリクル600の図1の線分AA’における断面図である。実施形態6のペリクル600は、第1の枠体611の溝部625をペリクル膜601に接する位置までエッチングし、貫通孔621と同程度の高さの孔623を形成する点で、実施形態5のペリクル500と異なる。その他の構成については、ペリクル500と同様であるため、詳細な説明は省略する。
本実施形態に係るペリクル600は、例えば、図16を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図16は、ペリクル600の製造工程を示す図である。基板605を準備し、基板605上にペリクル膜601を形成する(図16(a))。基板605は、上述した基板505と同様の部材を用いることができるため、詳細な説明は省略する。
実施形態2~6のペリクルにおいては、貫通孔に接続する溝部を第1の枠体に形成して孔を形成した。本実施形態においては、第2の枠体に貫通孔に接続する孔を形成する例について説明する。
本実施形態に係るペリクル700は、例えば、図18及び図19を参照し、以下のように製造することができる。なお、以下の製造工程は一例であって、必要に応じて製造工程の順序を変更することもできる。図18及び図19は、ペリクル700の製造工程を示す図である。基板705を準備し、基板705上にペリクル膜701を形成する(図18(a))。基板705には、上述したように、例えば、シリコン基板、サファイア基板、炭化ケイ素基板等を用いることができるが、これらに限定されるものではない。
実施形態7の変形例として、ペリクル800を示す。図20は、本発明の一実施形態に係るペリクル800の図1の線分AA’における断面図である。ペリクル800は、ペリクル膜801を配置した第1の枠体811と、第1の枠体811を支持する第2の枠体813と、を備える。また、ペリクル800は、ペリクル膜801と第1の枠体811とを貫通する貫通孔821と、ペリクル膜801上に配置され、貫通孔821を覆うフィルタ831と、を備える。
ペリクル800の製造方法の製造方法は、第2の枠体813に溝部825を形成する点において、ペリクル700の製造方法とは異なる。本実施形態においては、第2の枠体813の第1の枠体811と対向する面に、貫通孔821に接続する溝部825を形成し、接着層841を介して第1の枠体811を第2の枠体813に固定して、貫通孔821に接続し、且つ、第2の枠体813の内側の面に開口を有する孔823を形成する。その他の製造工程は、ペリクル700と同様であるため、詳細な説明は省略する。
実施形態5で説明したペリクル膜501に隣接して、第1の枠体511上にフィルタ531を配置する構成と、実施形態7の孔727を備えた第2の枠体713を組合せた例について説明する。
ペリクル900の製造方法の製造方法は、第1の枠体911の第2の枠体913と対向する面に、貫通孔921を形成する工程までが実施形態5と同様であるため、詳細な説明は省略する。第1の枠体911に貫通孔921と接続する溝部を形成しない点で、実施形態5と異なる。また、第2の枠体913の第1の枠体911と対向する面に第1の開口923を形成し、第2の枠体913の内側の面に第2の開口925を形成し、第2の枠体913の内部に2つの開口を接続する孔927を形成し、第1の開口923を貫通孔921に接続する。その他の製造工程は、ペリクル700と同様であるため、詳細な説明は省略する。
実施形態5で説明したペリクル膜501に隣接して、第1の枠体511上にフィルタ531を配置する構成と、実施形態8の孔823を備えた第2の枠体813を組合せた例について説明する。
ペリクル1000の製造方法の製造方法は、第1の枠体1011の第2の枠体1013と対向する面に、貫通孔1021を形成する工程までが実施形態5と同様であるため、詳細な説明は省略する。第1の枠体1011に貫通孔1021と接続する溝部を形成しない点で、実施形態5と異なる。また、第2の枠体1013の第1の枠体1011と対向する面に、貫通孔1021に接続する溝部1025を形成し、接着層1041を介して第1の枠体1011を第2の枠体1013に固定して、貫通孔1021に接続し、且つ、第2の枠体1013の内側の面に開口を有する孔1023を形成する。その他の製造工程は、ペリクル800と同様であるため、詳細な説明は省略する。
本実施形態のペリクル1100の製造方法の基本的な工程は、実施形態1と同様である。実施形態1と同様に、第1の枠体1111を形成する。
本実施形態のフォトマスクへのペリクルの配置方法は、本実施形態のペリクル1100であって第2の枠体1113の少なくともペリクル膜1101を配置した第1の枠体1111を支持する面とは反対側の面に溝1116が設けられているペリクルと、フォトマスクと、を第2の枠体1113の溝1116が設けられている面とフォトマスクとが対向するように配置する配置工程と、貫通孔1116A及び1116Bを通じて溝1116の内部を減圧することにより、ペリクル1100とフォトマスクとを固定する固定工程と、を有する。
上述したフォトマスクへのペリクルの配置方法では、第1の枠体1111と第2の枠体1113を接着してペリクル1100を形成した後に、フォトマスク6500に配置した。しかし、本発明に係るフォトマスクへのペリクルの配置方法は、これに限定されるものではなく、順序を入れ替えることも可能である。一例として、第2の枠体をフォトマスクに配置した後に、第2の枠体に第1の枠体を接着してペリクルを完成させる例について説明する。
上述した実施形態に係るペリクルを用いて、極端紫外光リソグラフィによる微細加工を実現することができる。本発明に係るペリクルをフォトマスクのレチクル面に配置し、フォトマスクを露光装置の所定の位置に配置して、レチクル面から3mm以下の距離を有する空隙にペリクルを収容し、真空下で、ペリクルを配置したフォトマスクに5nm以上30nm以下の光を照射し、ペリクルを配置したフォトマスクのレチクル面から出射した光をレジスト層が形成された基材に照射することにより、レジストにパターンを露光することができる。
200:ペリクル、201:ペリクル膜、205:基板、211:第1の枠体、213:第2の枠体、221:貫通孔、223:孔、225:溝部、231:フィルタ、243:接着層、251:ライナー、
300:ペリクル、301:ペリクル膜、305:基板、311:第1の枠体、313:第2の枠体、321:貫通孔、331:フィルタ、341:接着層、343:接着層、351:ライナー、
400:ペリクル、401:ペリクル膜、405:基板、411:第1の枠体、413:第2の枠体、421:貫通孔、431:フィルタ、441:接着層、443:接着層、451:ライナー、
500:ペリクル、501:ペリクル膜、505:基板、511:第1の枠体、513:第2の枠体、521:貫通孔、523:孔、525:溝部、531:フィルタ、543:接着層、551:ライナー、
600:ペリクル、601:ペリクル膜、605:基板、611:第1の枠体、613:第2の枠体、621:貫通孔、623:第1の開口、625:第2の開口、627:孔、631:フィルタ、643:接着層、651:ライナー、
700:ペリクル、701:ペリクル膜、705:基板、711:第1の枠体、713:第2の枠体、721:貫通孔、723:第1の開口、725:第2の開口、727:孔、731:フィルタ、743:接着層、751:ライナー、
800:ペリクル、801:ペリクル膜、805:基板、811:第1の枠体、813:第2の枠体、821:貫通孔、823:孔、831:フィルタ、841:接着層、843:接着層、851:ライナー、
900:ペリクル、901:ペリクル膜、911:第1の枠体、913:第2の枠体、921:貫通孔、923:孔、931:フィルタ、941:接着層、943:接着層、951:ライナー、
1000:ペリクル、1001:ペリクル膜、1011:第1の枠体、1013:第2の枠体、1021:貫通孔、1023:孔、1031:フィルタ、1041:接着層、1043:接着層、1051:ライナー、
1100:ペリクル、1101:ペリクル膜、1111:第1の枠体、1113:第2の枠体、1121:貫通孔、1131:フィルタ、1141:接着層、1143:接着層、1151:ライナー、
5000:ペリクル製造装置、5100:真空チャンバー、5200:載置台、5110:供給管、5120A:排出管、5120B:排出管、
6000:フォトマスク製造装置、6100:真空チャンバー、6110:供給管、6120A:排出管、6120B:排出管、6500:フォトマスク、
7000:フォトマスク製造装置、7100:真空チャンバー、7110:供給管、7120A:排出管、7120B:排出管、7220A:排出管、7220B:排出管、7500:フォトマスク、
1800:ペリクル、1801:ペリクル膜、1811:第1の枠体、1813:第2の枠体、1821:貫通孔、1831:フィルタ、1841:接着層、1843:接着層、1851:ライナー、1890:隙間、1900:ペリクル、1901:ペリクル膜、1911:第1の枠体、1913:第2の枠体、1921:貫通孔、1919:接着層、1943:接着層、1951:ライナー、1990:隙間
Claims (19)
- ペリクル膜を配置した第1の枠体と、
前記第1の枠体を支持する第2の枠体と、
前記第1の枠体を貫通する貫通孔と、
前記第1の枠体の前記ペリクル膜が配置された面側で前記貫通孔を覆うフィルタと、を備えることを特徴とするペリクル。 - 前記貫通孔は、前記ペリクル膜を貫通し、
前記フィルタは、前記ペリクル膜上に配置さることを特徴とする請求項1に記載のペリクル。 - 前記フィルタが前記ペリクル膜に隣接して、前記第1の枠体上に配置されることを特徴とする請求項1に記載のペリクル。
- 前記フィルタの上面が前記ペリクル膜と同一面になるように、前記フィルタが前記第1の枠体上に配置されることを特徴とする請求項3に記載のペリクル。
- 前記第1の枠体は、前記第2の枠体と対向する面に、前記貫通孔に接続する溝部を有し、
前記溝部は、前記第2の枠体との結合により、前記貫通孔に接続する孔を形成し、
前記孔は、前記第1の枠体の内側の面に開口を有することを特徴とする請求項1に記載のペリクル。 - 前記第2の枠体は、前記第1の枠体と対向する面に配置した第1の開口と、前記第2の枠体の内側の面に配置した第2の開口とを有し、
2つの前記開口は、前記第2の枠体の内部に配置された孔で接続され、
前記第1の開口が前記貫通孔に接続することを特徴とする請求項1に記載のペリクル。 - 前記第2の枠体は、前記第1の枠体と対向する面に、前記貫通孔に接続する溝部を有し、
前記溝部は、前記第1の枠体との結合により、前記貫通孔に接続する孔を形成し、
前記孔は、前記第2の枠体の内側の面に開口を有することを特徴とする請求項1に記載のペリクル。 - 前記ペリクル膜は13.5nmの波長の光に90.0%以上の透過率を有し、膜厚が20nm以上50nm以下であることを特徴とする請求項1に記載のペリクル。
- 高さが2mm以下であることを特徴とする請求項1に記載のペリクル。
- 基板上にペリクル膜を形成し、
所定の位置の前記ペリクル膜を除去して前記基板を露出させ、
前記基板の一部を除去して、前記ペリクル膜を露出させて第1の枠体を形成し、前記所定の位置に前記第1の枠体を貫通する貫通孔を形成し、
前記第1の枠体の前記ペリクル膜が配置された面側に、前記貫通孔を覆うフィルタを配置し、
前記第1の枠体側の前記貫通孔が開口するように、接着層を介して前記第1の枠体を第2の枠体に固定することを特徴とするペリクルの製造方法。 - 前記貫通孔は、前記所定の位置に前記ペリクル膜を貫通して形成し、
前記ペリクル膜上に、前記貫通孔を覆うフィルタを配置することを特徴とする請求項10に記載のペリクルの製造方法。 - 前記ペリクル膜に隣接して、前記第1の枠体上に前記フィルタを配置することを特徴とする請求項10に記載のペリクルの製造方法。
- 前記フィルタの上面が前記ペリクル膜と同一面になるように、前記第1の枠体上に前記フィルタを配置することを特徴とする請求項12に記載のペリクルの製造方法。
- 前記第1の枠体の前記第2の枠体と対向する面に、前記貫通孔に接続する溝部を形成し、
接着層を介して前記第1の枠体を第2の枠体に固定して、前記貫通孔に接続し、且つ、前記第1の枠体の内側の面に開口を有する孔を形成することを特徴とする請求項10に記載のペリクルの製造方法。 - 前記第2の枠体の前記第1の枠体と対向する面に第1の開口を形成し、
前記第2の枠体の内側の面に第2の開口を形成し、
前記第2の枠体の内部に2つの前記開口を接続する孔を形成し、
前記第1の開口を前記貫通孔に接続することを特徴とする請求項10に記載のペリクルの製造方法。 - 前記第2の枠体の前記第1の枠体と対向する面に、前記貫通孔に接続する溝部を形成し、
接着層を介して前記第1の枠体を第2の枠体に固定して、前記貫通孔に接続し、且つ、前記第2の枠体の内側の面に開口を有する孔を形成することを特徴とする請求項10に記載のペリクルの製造方法。 - 膜厚が20nm以上50nm以下となる前記ペリクル膜を前記基板上に形成し、
前記ペリクル膜は13.5nmの波長の光に90.0%以上の透過率を有することを特徴とする請求項10に記載のペリクルの製造方法。 - 高さを2mm以下とすることを特徴とする請求項10に記載のペリクルの製造方法。
- 請求項1に記載のペリクルをフォトマスクのレチクル面に配置し、
前記フォトマスクを露光装置の所定の位置に配置して、前記レチクル面から3mm以下の距離を有する空隙に前記ペリクルを収容し、
真空下で、前記ペリクルを配置した前記フォトマスクに13.5nmの光を照射し、
前記ペリクルを配置した前記フォトマスクの前記レチクル面から出射した光をレジスト層が形成された基材に照射することを特徴とする露光方法。
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JP2016548959A JP6367342B2 (ja) | 2014-09-19 | 2015-09-18 | ペリクル、ペリクルの製造方法及びペリクルを用いた露光方法 |
KR1020177006032A KR101910302B1 (ko) | 2014-09-19 | 2015-09-18 | 펠리클, 펠리클의 제조 방법 및 펠리클을 사용한 노광 방법 |
CN201580046926.7A CN106796391B (zh) | 2014-09-19 | 2015-09-18 | 防护膜组件、防护膜组件的制造方法及使用了防护膜组件的曝光方法 |
US15/454,631 US10585348B2 (en) | 2014-09-19 | 2017-03-09 | Pellicle, pellicle production method and exposure method using pellicle |
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JP2022121755A (ja) * | 2019-02-01 | 2022-08-19 | 信越化学工業株式会社 | ペリクル、ペリクル付露光原版、露光方法及び半導体の製造方法 |
JP2022163710A (ja) * | 2021-04-14 | 2022-10-26 | コリア エレクトロニクス テクノロジ インスティチュート | 極紫外線露光用ペリクル |
JP7556378B2 (ja) | 2022-07-05 | 2024-09-26 | 信越化学工業株式会社 | ペリクル、ペリクル付露光原版、露光方法及び半導体の製造方法 |
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TW201614367A (en) | 2016-04-16 |
CN106796391A (zh) | 2017-05-31 |
JPWO2016043301A1 (ja) | 2017-06-29 |
KR20170038910A (ko) | 2017-04-07 |
US10585348B2 (en) | 2020-03-10 |
EP3196700A4 (en) | 2018-06-20 |
KR101910302B1 (ko) | 2018-10-19 |
JP6367342B2 (ja) | 2018-08-01 |
EP3196700B1 (en) | 2019-01-30 |
SG11201701802SA (en) | 2017-04-27 |
US20170184957A1 (en) | 2017-06-29 |
EP3196700A1 (en) | 2017-07-26 |
CN106796391B (zh) | 2020-02-11 |
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