CN1276068A - Optical lithography beyond conventional resolution limits - Google Patents

Abstract

Optical lithography scheme making use light coupling structures, and elastomeric light coupling structures in particular. These light coupling structures comprise protruding portions and connecting portions. The protruding elements are designed to be brought into conformal contact with a resist to be exposed such thatthe light guided into the protruding elements is coupled from there directly into the resist. The lateral shape and size of the protruding elements defines 1 : 1 the lateral size and shape of small features to be exposed in a resist.

Description

The photoetching method that surpasses conventional resolution limits

Technical field

The present invention relates to a kind of new photoetching method, it can surpass traditional by the resolution limit due to the exposure optical wavelength.

Background of invention

The resolution of conventional lithography method mainly is subjected to being used for the restriction of the light wavelength that the transfer mask pattern uses to the resist.The wavelength of exposing radiation is Rayleigh equation W=k ₁The principal element of the pattern resolution W that λ/NA provides, wherein λ is the exposure light wavelength, NA is the numerical aperture of lithography tool, and k ₁It is the constant of concrete photoetching treatment.In other words, resolution W is proportional to the exposure light wavelength lambda.Now, chamfered edge production (cutting edge production) has obtained the 250nm width that obtains under the 248nm rayed.Bottleneck when at present the used method based on light is the size characteristic structure of attempting to obtain to be lower than 200nm.According to present state of art, the etching system of making current DRAM is quite expensive.When people's notice moved on to littler characteristic dimension, other method was more and more tempting, but required cost is huge.Therefore, maintenance is of great value with the technology of many existing method compatibility.

The developing direction of integrated circuit and flat-panel monitor manufacturing technology requires further improving aspect the small-scale photoetching.In these and other field, require a kind of good photoetching process of cost benefit that can production large tracts of land (being used for about 45cm diagonal display) nanoscale structures day by day.The road for development of semi-conductor industry requires the manufacturing industry in forward position to reach 180nm in calendar year 2001, and reaches 70nm in 2011.

A kind of known photoetching form is so-called hard contact lithograph, and wherein mask moves with the substrate of wanting pattern-making and directly contacts.Have in the very fine pattern to replace transparent and the mask opacity, its feature structure is by being printed on the photoresist with 1: 1 relation of the source area of pictural surface.In principle, hard contact lithograph can produce the dimensional structure that is lower than illumination wavelengths.But mask is placed on contact on the substrate, because the possibility of obscuring the material on the mask surface is arranged, thus sacrificed the completeness of method, and the infringement of mask has been limited (comparing with projection lithography) available printing greatly.Especially, cost is perplexing dwindling of feature scale, and the expensive price of making mask is increased sharply along with the increasing of its detail characteristic density.And the contact mask mask than the optical projection photoetching usually is much expensive, because will obtain identical resolution, the former critical dimension must be littler than utilizing the latter by the optical projection system coefficient of reduction.In hard contact lithograph, when the barrier of dust and other physics leaves that mask surface arrives on the substrate and when polluting pattern, dust on these substrates and barrier are catastrophic.Because this mask can not guarantee the environment around it, the area that this defective occurs is more much bigger than invisible particle; This problem has hindered dwindling of this details scale, even the particle of 200nm also may be harmful to.In addition, resist may cling mask.Therefore, hard contact lithograph has not been given play to vital role in the manufacturing of small scale integration.

Known have many kinds of methods can improve traditional etching system, and wherein this system has adopted the mask of optical filter, projection lens or appropriate change.These methods become increasingly complex along with reducing of details scale and are more and more expensive.One of them example is so-called optical projection lithography method.The most successful beyond doubt based on the photoetching process of projection, and be widely used in to make and be low to moderate～details of 200nm.Here, when the mask of light transmission, promptly produce the far field intensity change pattern resemble the contact lithograph.Light to be coated on the image that forms required pattern on the resist of substrate, dwindles 5-10 doubly from means of mask dimensions by air borne and by lens focus usually.But projection lithography has limited the size of details greatly, and greater than light wavelength lambda.In addition, it is along with scale narrows down to even be lower than 200nm, and the realization of this method is more and more difficult, wherein needs very complicated lens system and material require, realizes existing and scheme suggestion.Distinct issues are on whole zone uniform illumination to be arranged.At present, the maximum current field size in best 248nm exposure tool only is～20 * 20mm.Owing to have any problem in material and engineering aspect, useful exposure area can continue to dwindle significantly along with illumination wavelengths when the complicated camera lens by silicate substrate formed uniform exposure in principle.

Therefore, when making great efforts to obtain littler details size, the shortcoming of these method maximums normally becomes increasingly complex and is expensive.And, between ultimate resolution, depth of focus and the attainable image field of the used camera lens of focused beam, exist compromise choice problem.

With controlling the exposure light phase but not the mask (being called phase mask, phase shifting mask or PSM) of amplitude, can improve the resolution of standard light etching system, reduce its characteristic dimension.Two examples based on phase shifting method are that people such as D.M.Tennant are at [MicroelectronicEngineering], vol.27,1995, people such as " the E light beam writes with dry ecthing method and makes the phase grating masks that integrated optical circuit is used: commercial application problem " of pp.427-434 and J.A.Rogers are at [Appl.phys.Lett.], No.70, vol.20,19 may, 1997, described in pp.2658-2660 " use of elasticity phase mask when optical near-field carries out Asia-100nm photoetching ".

People such as Tennant propose to adopt hard contact mask, and people such as Rogers tend to be used to form the elasticity mask 10 (Fig. 1) of the long feature 17 of high density wavelet.In these methods, by contacting between photoresist 11 and the mask 10, the pattern on the mask makes illumination light produce in the near field to interfere.Light sees through transparent fully throughout but has the mask 10 of the surface relief pattern that good in accordance with regulations mode changes.By the light of this structure mask 10 is arranged, according to the position of its outgoing and experienced long or short light path respectively.This variation of the effective optical path length by structure mask 10 is arranged has contribution to propagates light phase place (and having only phase place) difference.These phase differential cause the resist 11 surperficial wavelet meropodium points of going up in the exposing radiation intensity.If suitably design and make these masks 10, the minimum relatively node of density is arranged at mask/15 places, resist interface then.

People such as Roger represent, make them produce the long details 18 of wavelet in photoresist layer 11 with the phase method of flexible mask, have avoided the relevant problem of shown in Figure 1 and crisp contact mask people such as () Tennant simultaneously.These details 18 can be transferred on the substrate 16, as is known in the art by means of the dried quarter or the wet chemical dissolution of substrate 16 then.Be formed on details 17 in the substrate have roughly be formed on photoresist 11 in the identical lateral dimension of details 18.Aforementioned based on the photoetching method that sees through mask 10 smooth phase shifts, existing problem is: when producing little details 17 (wavelet is long), these details 17 have been limited by physical dimension on the substrate 16 (line) or low-density.And the shape of structure 18 is restricted in the resist.In people's such as Roger paper, the author represents, phase shift in the light intensity provides structure 18 in resist 11, this structure is derived by layout in the phase mask 10, and promptly each sidewall of surface relief 14 patterns has provided the little light intensity than resist 11 surperficial 15 places in the phase mask 10.The width of these nodes is narrow and fixing, so that the lateral dimension of these details 18 and 17 only changes in very limited scope.

In one step, obviously can not produce the common interstitital texture of round dot, square or arbitrary shape with this technology.And for phase shift is all arranged throughout, the height of surface relief 14 must well mate with the wavelength of exposure light 13 in the phase mask 10.This requirement of phase shifting method means that the structure of phase mask 10 is restricted, and along with dwindling of its size, anisotropy progressively increases, and this is the subject matter that forms this class details in resilient material.Another problem of this method is because each " leg " 14 of phase mask 10 produces a pair of low intensive node at its edge, and the structure of the paired light that exposed to the sun is always arranged in the resist.

Certainly the problem of aforementioned mask manufacture method and processing procedure still exist the sensitivity of defective and damage.Can form mask from organic polymer easily with various technologies, perhaps merit attention most from the motherboard copy mask.Many polymer masks can be cast on the single motherboard and the latter does not significantly damage, because this method does not apply on substrate or stress application seldom.The duplicating of mask overcome some and formed the relevant problem of cost that the high density minor structure is used contact lithograph with them: duplicate can be made more cheaply, and makes it can disposable use before discarded.But the structure of not all these purposes can both adopt more optimum polymeric materials, the elasticity poly-(dimethylsilane) used as people such as Rogers.People's such as Delamarche paper " Stability of Molded Polydimethylsiloxanemicrostructures " (Advanced Materials 1997,9, p.741) show, many details in the ball gonosome are not fine, and it is high and anisotropy is big to trend towards resolution, and its details scale reduces.

Other methods and the scheme that propose can make the resolution of etching system be reduced to more small-feature-size.For example people such as H.Fukuda article " Can synthetic aperturetechniques be applied to optical lithography? " (be disclosed in J.Vac.Sci.Technol.B, Microelectron.Nanometer Struct. (USA), Vol.14, No.6, p.4162-4166) Nov.Dec.1996 provides.This article has been discussed the synthetic feasibility that is applied to photoetching of optical aperture theoretically.It has described the technology of inserting three phase gratings in traditional optical projection system that is included in.Yet this method should but manifest to come out by the strict caused aberration of grating that limits when the paraxial region generation has the imaging of double space bandwidth.Image illustrates that simultaneously for very fine types of patterns, accessible theoretical resolution is low to moderate 0.1 μ m.

As people such as Ch.Xiaolan at " Multiple exposure interferometriclithography-a novel approach to nanometer structures " (Conferenceproceedings-lasers and Electro-Optics Society Annual Meeting 1996, p.390-391), with optical system and the existing LASER Light Source and the photoresist of costliness, interference photoetching technology is generalized to surpasses present industrialized wiring diagram level widely.

Also considered the scheme that is used for inferior 200nm photoetching of more novelties.Now, X-ray, extreme ultraviolet and electron beam all are the active research directions in the manufacturing field.The difficult point of these technology is: the mask manufacturing, practicability beam-shaping technology, forms and the practical problems of the stable light-beam limitation of cost and complexity the responsive and effectively requirement of anticorrosive additive material of beam intensity for novel.The purpose of this invention is to provide a kind of new photoetching scheme,, it can make the purposes of etching system be generalized to the details size that is low to moderate 350nm, especially can reach the details size of λ/2 to λ/5 scopes with existing light source.

Brief summary of the invention

Above-mentioned purpose provides parallel etching system (being referred to as optical coupling structure) to realize by on the basis of supporting optically-coupled part and photoresist part.Optically-coupled partly is used for the exposure photoconduction to resist to be exposed, and its structure is designed to and the conformal form that contacts of resist, so that the refractive index of resist is mated selectively by the optically-coupled part of its lip-deep predetermined position.This refractive index match by the optically-coupled adjacent with the refractive index barrier structure partly selected can guide light and be coupled in the localized area of resist exactly selectively.The transverse shapes and the size of protrusion unit are defined as: with the size and shape of little details to be exposed in the resist be 1: 1.

Here will instruct how to form and use optical coupling structure, this optical coupling structure is directed to light on the surface of the contact lithograph that can have the parallel preparation of the long details of random shape and highdensity wavelet usefulness with new form of substrate.We depend on these by directly contacting the photo-coupler (this paper is called optical coupling structure) that forms with the substrate that semi-transparent masks is arranged, and they play guides light into pattern and form lip-deep effect.We adopt the method (describing hereinafter) need not use reference wave, so just do not have usually the interference effect based on the photoetching of phase shifted light (phase shifting mask method).

The significant advantage of the inventive method is not need imaging optical system.Can obtain big area with single exposure, this itself is parallel processing because of method of the present invention, and its full details is exposure simultaneously in resist, has high output.The solution of the present invention can be used for the image in big zone, and is suitable for very much the making and the semi-conductor chip batch process of display, as DRAM or the like, also can be used for forming the high density minor structure.The present invention also is suitable for forming micro mechanical structure very much.

Flexible optical coupling structure can duplicate out from motherboard at an easy rate, and each duplicate can be with many times.

Advantage of the present invention is the compatibility that has kept with existing resist and treatment process.

It is to continue to utilize the experience of a large amount of designing treatment resists that the present invention also has an advantage, because these resists are continued to have continued to use.

Another advantage of the present invention is needn't adjust optical coupling structure with a plurality of wavelength, because there is not lens system.

It is shorter than the situation of traditional masks that another advantage of the present invention is the time shutter, because do not have the blocking of camera lens and other device, absorption and scattering to fall light.

The present invention be advantageous in that used photoetching scheme is simple.

Description of drawings

Hereinafter will describe the present invention in detail with reference to following accompanying drawing:

Fig. 1 is nanoscale structures is made in expression with people's such as J.A.Roger phase shifting method a synoptic diagram (prior art).

Fig. 2 is nanoscale structures is made in expression with the inventive method a synoptic diagram.

Fig. 3 is that expression is positioned at the optical coupling structure schematic sectional view of the present invention on the resist.

Fig. 4 A is a synoptic diagram of making the nanoscale optical coupling structure according to the present invention.

Fig. 4 B is the schematic top view according to optical coupling structure of the present invention.

Fig. 5 A-E is the schematic sectional view according to different optical coupling structures of the present invention.

Fig. 5 F is the schematic sectional view of another optical coupling structure of the present invention.

Fig. 6 A is the typical top view of motherboard of the present invention.

Fig. 6 B is the typical top view of optical coupling structure of the present invention (duplicate).

Fig. 6 C is the typical top view of the resist that is exposed according to the present invention.

Fig. 6 D is the 45 view of the resist that is exposed according to the present invention.

Fig. 7 is the typical top view of the resist that is exposed according to the present invention.

Describe in detail

In this article, term optical coupling structure or photo-coupler are used to describe the object of mask shape, and it can be placed between the light source of emission exposure light and the patterning to be formed substrate of resist layer (as be coated with).

The solution of the present invention has been utilized the interaction of optical coupling structure edge (interface).The refractive index of optical coupling structure should be complementary with the refractive index of resist.For many existing materials, refractive index is between 1.4 and 1.5.Except the refractive index of optical coupling structure is wanted suitably, also pattern should be arranged, so that exposure light enters optical coupling structure and then passes this coupling mechanism and propagate, preferably leave the interface that the photo-coupler border limits through the internal reflection guiding.That is, optical coupling structure is used as waveguide.Enough light is left, to contrast at the resist of image to be formed and the light intensity that provides at the interface between the optical coupling structure.Consistance between two kinds is guaranteed to be coupled to greatest extent, and by its at the interface refractive index fine coupling and obtain contrast to greatest extent, thereby suppressed useless scattered light.

Note that we refer to the reflection on photo-coupler/air interface herein.When being used in the non-air environment (insert gas, liquid or the like), can be with other material that suitable refractive index is arranged, to guarantee with the mode of internal reflection direct light correctly.

In conjunction with Fig. 2 and 3 first embodiment of the present invention is described now.In Fig. 2, schematically show with the inventive method and make nanoscale structures 27.After classic method, this figure expresses the basic difference of two kinds of methods strictly according to the facts brightly.Fig. 3 represents the schematic cross-sectional of the optical coupling structure 20 on the resist 11.This optical coupling structure 20 has to be seen through exposure light 13 and is coupled to its inner upper surface 22.And optical coupling structure 20 has the coupling part 29 (being also referred to as the light shield portions) with the air interfaces, with the optically-coupled part 24 (being also referred to as bossing, leg, or die) that directly contacts with resist 11.Exposure light 13 is propagated by optical coupling structure 20, and raising the air interface generation internal reflection of part 29, shown in arrow among Fig. 3.

According to this design of optical coupling structure, the coupling part can shelter from light 13, and it is directed to shank 24.These legs 24 directly form coupling mechanism/resist interface 25, are coupled in the resist 11 at this interface exposure light 13.The zone of resist 11 inside is exposed light 13 exposures under these interfaces 25, as shown in the figure.If resist 11 is positive resist (resist in the light zone of promptly exposing to the sun is soluble), have only zone 28 unexposed and when resist develops, maintain the original state, as shown in Figure 2.Just show little groove 30 after exposure and the developing procedure subsequently.

Note that term " bossing " and " coupling part " are used to emphasize that optical coupling structure of the present invention is to duplicate from motherboard.Always there is some part connecting bossing.These coupling parts are mechanically connecting bossing, and as light barrier means.When both are formed on a time-out as the duplicate of motherboard, the coupling part can be by constituting with the bossing identical materials.The blocking function and can improve by adding attachment device of coupling part is because also will locate it later on.And the photoconduction of bossing and coupled characteristic can improve by suitable measurement, as will be described.

The transverse shapes of leg 24 and size define transverse shapes and the size that is exposed part in the resist 11, because in desirable optical coupling structure, light only is coupled in the resist by these legs.The width W of leg 24 in the optical coupling structure 20 ₁For example can directly limit the width W r of the groove 30 that is exposed the resist zone and forms subsequently.

Importantly, the exposure light 13 that is coupled in the photo-coupler 20 will be suitable for forming resist 11 patterns.Exposure light can be polarization, monochromatic, polychrome (broadband) light or incoherent light, and its wavelength is at least between 800 to 200nm.Broadband light can be produced by mercury vapor lamp.Argon ion laser, the YAG laser instrument, the KrF laser instrument, and other many kinds of light sources all can use.Light source can be that the far field does not have burnt light source.The light that light source sends can be coupled in the optical coupling structure by any interface, for example uppermost interface 22 among Fig. 3.Similarly, light can by optical waveguide and optical fiber from the top or the output terminal of side or LED or solid-state laser be coupled to the optical coupling structure.The wavelength of light source can be by being optimized at concrete purposes.If see fit, light source can be pulse.In addition, light can be in the enterprising line scanning of optical coupling structure, or when making light source with the optical projection system that has additional masking with graphic pattern projection on this structure.

The solution of the present invention has been utilized optical coupling structure interaction at the interface.Will be designed to by means of towards the internal reflection of optically-coupled part (protrusion element) and direct light with the interface of air, these projectioies contact with resist to be exposed is conformal.At the interface, light wants the front to be coupled to resist inside between the end of protrusion element and resist, i.e. the design of protrusion element will make sufficient this coupling between optical coupling structure and the resist.In fact, in the existing resist, with two between the exterior domain in the resist that optically-coupled partly contacts and even still less the light intensity modulation of factor have enough difference, the useful structure of generation in developing with the resist after its exposure.

The efficient of coupling depends on the refractive index of optical coupling structure and resist, and wavelength (if adopt polychromatic light, being wavelength zone) or the like.Optimize coupling efficiency different modes is arranged.Major requirement is should not have the discontinuous problem of refractive index between optically-coupled part 24 and the resist 11 under little a lot of scale situation than wavelength.This situation is by between the two conformal and rapid realization, i.e. tight coupling between two surfaces.Ideally, the refractive index of optical coupling structure and resist is the same as much as possible big, because this will cause reducing of the used illumination effective wavelength of photoetching.Realize this conformal several possibilities that exist.At first,, both can be clipped together pressurization, as under common hard contact lithograph situation if substrate and mask all are crisp and hard materials.The second, resist 11 can be suitable for it by controlling its component and processing, makes its surface with optical coupling structure pillar 24 identical, guarantees conformal contact.The 3rd, an index-matching material thin layer can be added on the pillar, resemble the oil or the polymkeric substance of viscosity, the both optical coupled that is used under the situation of crisp and hard material between pillar 24 and the resist 11.Be interpreted as submissively at this index-matching material, and must be placed on the pillar to keep the whole refractive index ratio between the adjacent structure in the optical coupling structure.The 4th, shield portions 20 in the optical coupling structure and optically-coupled part 24 can be with making such as resilient material, it can make its with resist between submissive the contact.Part 20 and 24 can be deposited on (not shown among Fig. 2) on the substrate in addition, and is promptly transparent at least in part and harder, so that the integral body of optical coupling structure location.

The same with traditional etching system, the resolution of the inventive method is strictly not proportional with the wavelength of light source.Because coupled structure of the present invention replaces the fact of traditional masks, can obtain the resolution between λ/2 to λ/5.If adopt the i line source (λ=365nm), can produce the low dimensional details that reaches 73nm (=λ/5) to be arranged.The restriction that should note λ/5 is not a physics limit.From the angle of theory, with method of the present invention even can obtain littler details, equipment that provides is provided for this.

Traditional commercially available photoresist can be used among the present invention.In general, what be suitable for is the photoresist of cresols matrix, for example can be the resist of acrylate or styrene and its potpourri matrix.Plus or minus tone resist can be used.Can also be with amplifying resist, with improve the resist exposure and develop after details than (width/depth).Also can use up the resist of guiding, as the negative tone resist of SU-8, itself demonstrates different photoconductions and draws effect when exposure.Scheme double-deck, three layers and top surface imaging resist all is suitable for, and is applicable to very much optical coupling structure of the present invention.About the particulars of resist are provided by books and other publication, as " the Journal of Research and Development of IBM " Vol.41, No.1/2, " the Optical Lithography " among the Jan/Mar 1997.

Time shutter is depended on many known parameters, as the thickness of the coupling efficiency (or optical coupling structure herein) of the susceptibility of the absorptivity of optical source wavelength, optical coupling structure, resist, mask, resist, contrast or the like.

Hereinafter, with the method that describes optical coupling structure 20 in detail and make this optical coupling structure.The inventor finds that polymkeric substance is especially suitable.Form duplicate ideal polymer several common characteristics are arranged.At first, this polymkeric substance must have the refractive index similar to the target resist.The second, this polymkeric substance must have can limit its surperficial rock-steady structure, and the aspect ratio of this structure ratio of an area (its thickness with) is at least 0.1.The 3rd, this material should be tough and tensile and some is submissive (as previously mentioned), so that it is fit to be placed on the surface of resist, especially contacts each other under the situation that does not have other external force except gravity and surface energy.The 4th, the surface energy of polymkeric substance is preferably low, so that it is reversible with contacting of resist, and does not leave the material of its back on the resist or is tending towards damage.The 5th, for make optical information by and appear optical coupling structure, this material should be translucent to the illumination target wavelength.The 6th, this material should flow in its processing procedure in a way, or by melting it or directly being molded as polymkeric substance by chemical reaction.The 7th, the intensity change and the stress that are suitable for the preamble requirement should be not enough to cause the damaged of motherboard or duplicate not exclusively.The 8th, this material should conformally contact, as mentioned above.Add the siloxane of making in the siloxane main chain potpourri that alkene class end group grafting and straight chain is arranged to by the low-molecular-weight silane siloxane that will contain crosslinking chemical, especially can prove above-mentioned advantage.When its prepolymer form, the surface energy that produces the silicone compositions of this potpourri can be at～25mN/m, intensity～10Mpa, and viscosity is～1000cSt, and can form the useful optical coupling structure shape that is low to moderate 100nm details yardstick, keep necessary consistance simultaneously.Other material of full carbon elastomeric matrices is also very suitable, and these materials are with quartzy or to contain the composition of siloxane of filling material suitable equally.Organic material and inorganic material are combined into composite structure can be proved especially favourable: as mentioned above, can select to satisfy the given material type of the required physical characteristics of concrete optical coupling structure unit.

In general, because of the inventive method is 1: 1 real method, should be such so form the used material of optical coupling structure: can realize being low to moderate in resist and lower semiconductor in the feature resolution of details size to be formed.In other words, if wide column or the fin 27 of 90nm will be formed on (see figure 2) on the semiconductor substrate 16,90nm wide (providing with positive resist 11) must also be provided the width of each protrusion element 24 of optical coupling structure 20 so.

According to the present invention, optical coupling structure can be made by solidify a kind of polymkeric substance on the motherboard 41 with required optical coupling structure surface negative film.This has protrusion element 42,43 with generation, the elastic solid (Hookean body) thing 40 of 44 pattern.Motherboard 41 for example can be differentiated (definition) and form with electron beam.Make a large amount of time and money that accurate high resolving power motherboard 41 is spent, divide and spread out by making a plurality of duplicate 40, and each duplicate can be used in the manufacturing of semiconductor circuit.Each duplicate can be suitable for several times, and uses the also not fragile of elastic body making.

Optical coupling structure 40 will be designed to like this: because whole process depends on the abundant coupling of light in from the optical coupling structure to the resist, the leg 42,43 of projection must contact with resist is conformal with 44.

The protrusion element of optical coupling structure 40 almost can be Any shape and size, as shown in Fig. 4 B.In this example, optical coupling structure 40 has the leg 42,43,44 of three projectioies.The xsect of first leg 42 is hollow rectangles or square.Leg 43 is convex ridges, and leg 44 is a circular cross section.These three case representations method of the present invention be how flexible.

The description of preferred embodiment

Hereinafter preferred embodiment will be described

The formation of motherboard: the thick quartz layer of 100nm with plasma deposition covers silicon wafer as the isotropy film.The poly methyl methacrylate polymer (980K) that is dissolved in the chlorobenzene in the ratio of 15% solid is spin-coated on the disk, to form the thick thin polymer film of 100nm on substrate.By this polymkeric substance being carried out pattern exposure in the 100KeV electron stream, change this resist selectively with e-bundle mask writing implement.The difference that exposure back resist dissolves in acetone shows the characteristic pattern of the periodic array that is low to moderate the 100nm size on substrate.According to active-ion-etch (RIE) chemistry, with in the quartz layer of this design transfer to the substrate, this method has fabulous selectivity to silicon with fluorine.When the silicon layer below arriving, stop the RIE process, and then guarantee that the details at the square layer end that quartz layer and silicon interface place form evenly develops.This situation helps to guarantee to form in the optically-coupled part of optical coupling structure the fabulous resolution of structure 24.In oxygen plasma, burn substrate removing residual organic, and on whole base plate, deposit the fluorinated polymer of 10nm with the plasma householder method then, so that coat the coating (15mN/m) of low surface free energy thereon.This coating must and solidify to form duplicate in follow-up treatment step and throw off.

Prepare optical coupling structure by the duplicate of making motherboard: with the platinum catalyst of 5ppm, preparation 6.5g vinyl methylsiloxane-dimethylsiloxane copolymer (1000cSt, VDT731Gelest, Karlsruhe, Germany) with 2g hydrogenated methyl siloxane-dimethylsiloxane copolymer (30cSt, HMS 301, Gelest) with 450mg fused quartz particle (20nm size, potpourri Gelest).This potpourri is directly poured on aforesaid motherboard, and in 60 ° baking oven, solidified 24 hours.Make its demoulding by peeling off down duplicate from motherboard with hand.This duplicate has the surface energy of 23mN/m, the intensity of 10Mpa and the hardness that is approximately glass 3%.According to the said process with scanning electron microscope (SEM) check, all details of motherboard all copy on its duplicate, and wherein the depression on the motherboard is the lip-deep bulge-structure of duplicate now.The gold layer that 5nm is thick is had on the end face of structure one side to duplicate by evaporation.The duplicate that to handle has the silicon wafer of one deck 1nm titanium and new again evaporation one deck 30nm gold layer to contact with its surface then; Then by should lip-deep gold being exposed in 1,10 decane alcohol sulphate (Aldrich) steam 5 minutes and it is handled.After between the gold surface after duplicate surface and the silicon wafer processing, contacting and breaking away from, adhere to contact between organic molecule by the ending of its mercaptan that clips at the interface two-layer, removed the gold at duplicate convex surfaces top selectively, and on the gold surface after staying silicon wafer and handling.

The photoresist of the Shipley6612 that the use of optical coupling structure: 600nm is thick (novalac) is spin-coated on the silicon wafer surface, and this disk has used hexamethyl two silicon compounds of resist adhesion promoter effect to handle in advance.Under 90 °, substrate carried out 20 minutes baking.With hand the aforementioned lights coupled structure is placed on the substrate top that is coated with photoresist, the gravity of between keeps its close conformal contact with surface force.With the pulse of sending resist is exposed from KrF laser instrument (per 20 nanoseconds 200 times and 300 millijoules).Develop in Shipley 400k according to fabricator's requirement then.

Fig. 6 A-6D has provided and has finished after the said procedure, motherboard, optical coupling structure and the explanation synoptic diagram that is formed at the structure in the photoresist layer on 1 * 1cm zone (motherboard size).

Because optical coupling structure is normally translucent, so be the situation that can check and proofread and correct aligning.Before exposure, the position of optical coupling structure can be moved on resist repeatedly until reaching final satisfied position.This aligning obviously can not be used for existing optical projection technology, and it must positively depend on the full detail of substrate position and realize inregister.

Another advantage of the inventive method is that the layout of substrate needs not to be accurate plane.Optical coupling structure allows certain surfaceness.Optical coupling structure can be shown in Fig. 5 A-5E such increasing.All shown optical coupling structures all are common characteristic, promptly have specific mechanism so that the internal reflection of raising on optical coupling structure/air interface.In Fig. 5 A, represented the simplest method.This method was described in Fig. 2 and 3.The reflection that refractive index sudden change on the interface is returned incident light.

In Fig. 5 B, represented such optical coupling structure: raise the interface 51 that part has inclination, to improve internal reflection.Fig. 5 C has represented another kind of method.Wherein, deposit reflection horizon 52 raising on the part, as metal (gold) layer, to improve internal reflection, as described above shown in the example.Represented a kind of grating 53 among Fig. 5 D, its effect is similar.

Can also improve so far described optical coupling structure by on some interface of structure, applying photoresist layer 54, shown in Fig. 5 E.Photoresist layer 54 in this example covers towards the sidewall 56 of the optically-coupled part of the interface 55 of the photoresist part of resist and projection.

In Fig. 5 F, shown optical coupling structure has a small gap or gap that beam splitting is opened.

Hereinafter, we will describe optical coupling structure of the present invention and how can be used for production run.

At first, resist is formed on the substrate to be patterned.From prior art as can be known, distinct methods can make this resist moulding.Then, the optical coupling structure of the present invention's qualification is placed on the resist.If optical coupling structure is the sort of flexibility, then can roll-in on resist.Check the position of this structure with optical means with respect to substrate.With accurate positioning device by the correction position that laterally relatively moves between optical coupling structure and the substrate.Then, carry out position detection once more, and whole process repeated is aimed at until reaching fully.

Now, can be with optical coupling structure by being pressed on the resist, to improve its coupling efficiency.This step also can according to circumstances be omitted.Open continuous or light-pulse generator then.That light source sends and be coupled to light beam in the optical coupling structure, automatically be directed to protruding end, be directly coupled in the resist at this place's light.Resist under these protruding ends is exposed.(if exposure is talked about fully) closed light source, and removed optical coupling structure after exposure process was finished.When these structures have different sizes, contingent interference effect when helping to suppress these texture ratios and demarcate that light wave leaves structure under the much smaller situation of wavelength with several optical wavelength.Such as is known in the art, antireflecting coating and other this class measure can be added on substrate or the resist, with the light reflection that suppresses to return.

Then, with the development step that is fit to resist is developed.Under the situation of positive tone resist, the part that resist exposed is removed in development step.If with the resist of negative tone, then unexposed part is removed.

The step of stiffened liner can be carried out before next step.The part of leaving over of resist is not etched away as some zone of mask protective substrate now.Can transfer on the substrate with transverse shapes and size that etching step wet or that do is left over part with resist now.Then, remove resist (ash melts).

We notice, do not cause this paper to describe and claimed lithography type based on the simple calibration of the known interferometric method of phase shift.Reduce by the phase shifting mask cycle that people such as Rogers propose, can cause being unsuitable for providing the smaller value Density Distribution and details to be defined in mask and method in the resist, as from Fig. 4 of people such as Rogers as can be seen.If according to the design criteria of Roger, obtain just with disclosed herein and describe opposite.According to the present invention, the resist that limits with zero level mould (m=0) exposes.Because people such as Roger do not obtain interference effect and phase shift in addition, so they continue to use more senior optical mode.

Be to be further noted that before inventor's work, can not produce the mask that is suitable as optical coupling structure of the present invention.As seeing, when comparing Fig. 1 and 2, the bossing 24 of mask 20 must have band to be formed on the transverse shapes and the size of the details 27 on the substrate 16.Be that bossing 24 must be more much smaller than the bossing 14 of mask 10.

Claims (44)

1. an optical coupling structure that utilizes the exposure of exposure optical countermeasures erosion agent layer to use as mask comprises

Bossing, its guides exposure light into its end, exposure light is directly coupled on the resist in this end, these ends have the transverse shapes for the treatment of exposure structure in the resist and

The coupling part, it connects these bossings, and blocks exposure light arrives the zone except that the bossing that these are exposed on the resist exposing,

This optical coupling structure has the refractive index of fluctuating, so that guide bossing into by the internal reflection light that will expose.

2. optical coupling structure as claimed in claim 1, wherein the transverse shapes of one of bossing has at the lateral dimension that exposes between light half-wavelength (λ/2) and 1/5th wavelength (λ/5) at least.

3. optical coupling structure as claimed in claim 1, wherein the transverse shapes of one of bossing has size between 200nm and the 73nm at least.

4. optical coupling structure as claimed in claim 1 comprises an elastic body.

5. optical coupling structure as claimed in claim 1, elastic body wherein is a polymkeric substance.

6. optical coupling structure as claimed in claim 1, bossing wherein is a refractive index match, so that light is coupled in the resist fully.

7. optical coupling structure as claimed in claim 6, wherein refractive index match is to realize by the refractive index step that reduces between bossing and the resist.

8. optical coupling structure as claimed in claim 6, wherein refractive index match is by an index-matching material thin layer being set between bossing and resist, realizing with the refractive index step that reduces between bossing and the resist.

9. optical coupling structure as claimed in claim 6, wherein refractive index match is by the oil or the polymer foil of a viscosity being set between bossing and resist, realizing with the refractive index step that reduces between bossing and the resist

10. optical coupling structure as claimed in claim 1, wherein bossing is designed to guarantee optimally to be transmitted to the interior structure of resist.

11. optical coupling structure as claimed in claim 1 is designed to exposure is coupled light to structure in the resist of positive tone.

12. optical coupling structure as claimed in claim 1 is designed to exposure is coupled light to structure in the resist of negative tone.

13. optical coupling structure as claimed in claim 1 comprises the aligning sign of aiming at resist layer.

14. optical coupling structure as claimed in claim 1, wherein the surface energy of bossing is low, so that it is reversible with contacting of resist, and the material on the not residual resist in back, vice versa.

15. optical coupling structure as claimed in claim 5, wherein this polymkeric substance is to contain the siloxane that the low-molecular-weight silane of crosslink bond is made by interpolation.

16. optical coupling structure as claimed in claim 4, elastic body wherein are the carbon elastic bodys.

17. optical coupling structure as claimed in claim 1, wherein this coupling part comprises that raising exposure light blocks the mechanism of effect.

18. as the optical coupling structure of claim 17, wherein some interface of coupling part is coated with the layer that improves the reflection of exposure light.

19. as the optical coupling structure of claim 17, wherein a thin metal layer is formed on some interface of coupling part, to improve the exposure reflection of light.

20. as the optical coupling structure of claim 17, wherein this coupling part comprises Bragg grating, to improve the exposure reflection of light.

21. as the optical coupling structure of claim 17, wherein this coupling part also can be used as by means of the internal reflection light that will expose and is directed to optical waveguide in the bossing.

22. optical coupling structure as claimed in claim 1, wherein the sidewall of this bossing layer that is increased internal reflection covers.

23. one kind prepares for the resist layer exposure method as the optical coupling structure of mask, this optical coupling structure comprises: bossing, and it has and is similar to the protruding end transverse shapes for the treatment of the exposure structure transverse shapes in the resist; And the coupling part, it connects this bossing, and the light of blocks exposure arrives the zone except that the protruding end that these are exposed on the resist that is exposing; This optical coupling structure has the refractive index of fluctuating, so that guide the protruding end of optically-coupled part into by the internal reflection light that will expose, this method may further comprise the steps:

Main body top-pour polymer injection in the negative relief that has the protruding end transverse shapes;

The polymkeric substance that solidifies on the main body is solid-state to form, and the elasticity optical coupling structure of bossing pattern is arranged;

Take off this solid-state elasticity optical coupling structure from main body.

24. as the method for claim 23, wherein this polymkeric substance is to contain the siloxane that the low-molecular-weight silane of crosslink bond is made by interpolation.

25. as the method for claim 23, wherein this polymkeric substance is the carbon elastic body.

26. as the method for claim 23, wherein

Form a material layer later on thereon taking off optical coupling structure from main body;

This material layer is formed pattern so that some interface of coupling part is capped, to improve the exposure reflection of light.

27. as the method for claim 26, wherein this material layer is a metal level.

28. as the method for claim 26, wherein this material layer makes the material adhesion here by itself and another substrate contacts and is separated with optical coupling structure selectively.

29. as the method for claim 26, wherein another substrate is a flexible polymer.

30. as the method for claim 29, wherein another substrate has the surface chemical property that impels this layer adhesion by forming ionic link or covalent bond.

31. as the method for claim 23, wherein curing schedule is to finish through several hrs in baking oven.

32. a method that forms the long structure of wavelet on substrate may further comprise the steps:

On substrate, form resist layer;

Determine the position of optical coupling structure on resist, this optical coupling structure comprises the bossing with the protruding end transverse shapes that is similar to the long structure transverse shapes of wavelet to be formed; And the coupling part, be used for connection bump part and the light that prevents to expose arrives the zone except that the protruding end that these are exposed on the resist that is exposing; This optical coupling structure has the refractive index of fluctuating, so that guide the protruding end of optically-coupled part into by the internal reflection light that will expose, the conformal contact between bossing and the resist should be guaranteed in the position of optical coupling structure;

With respect to the base plate alignment optical coupling structure;

Exposure is coupled light in the optical coupling structure, with the light that will expose be directed in the bossing and and then be coupled on the resist;

Take off this optical coupling structure;

The development resist is to form the resist pattern;

By etching process procedure with the resist design transfer to substrate;

Remove the resist pattern.

33. as the method for claim 32, wherein resist is the resist of negative or positive tone.

34. as the method for claim 32, wherein optical coupling structure only is to be positioned by gravity and surface tension.

35. as the method for claim 32, wherein etching process procedure is a kind of dry etching process process.

36. as the method for claim 35, wherein the dry etching process process is optimised, accurately transfers on the substrate with the pattern of guaranteeing resist.

37. a method for preparing the main body that is used to form optical coupling structure, this optical coupling structure comprise the bossing with the protruding end transverse shapes that is similar to the long structure transverse shapes of wavelet to be formed; And the coupling part, be used for connection bump part and the light that prevents to expose arrives the zone except that the protruding end that these are exposed on the resist that is exposing; This optical coupling structure has the refractive index of fluctuating, so that guide the protruding end of optically-coupled part into by the internal reflection light that will expose, this method comprises the steps:

Use the film covered substrate;

On film, form resist;

With electron beam mask-writing implement resist is exposed, limit the negative embossment of optical coupling structure bossing to be formed thus;

The development resist is to demonstrate negative embossment;

To bear embossment by etching process procedure transfers in the film that is placed on the following substrate;

Remove the resist that manifests the negative embossment of bossing.

38. as the method for claim 37, wherein low surface free energy coating is applied on the negative embossment of bossing.

39. as the method for claim 37, wherein this substrate is a silicon substrate.

40. as the method for claim 37, film wherein is a quartz thin film.

41., wherein make resist with polymkeric substance as the method for claim 37.

42. as the method for claim 37, wherein approximately the electronics of 100KeV is used for beamwriter lithography.

43. as the method for claim 37, wherein this etching process procedure is the active-ion-etch technological process.

44. as the method for claim 37, wherein this main body in oxygen plasma by ashing, to remove residual organic.

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