Optical element with an antireflection coating, projection objective, and exposure apparatus comprising such an element
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G03F-007/20
G02B-001/113
G02B-001/115
G02B-001/02
출원번호
US-0281138
(2011-10-25)
등록번호
US-9684252
(2017-06-20)
발명자
/ 주소
Zaczek, Christoph
Pazidis, Alexandra
출원인 / 주소
Carl Zeiss SMT GmbH
대리인 / 주소
Edell, Shapiro & Finnan, LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
An optical element (14) transparent for radiation with a wavelength λ in the ultraviolet wavelength range below 250 nm, in particular at 193 nm, comprises a substrate (17) with a refractive index ns larger than 1.6, and an antireflection coating (16) formed on at least part of the surface of the sub
An optical element (14) transparent for radiation with a wavelength λ in the ultraviolet wavelength range below 250 nm, in particular at 193 nm, comprises a substrate (17) with a refractive index ns larger than 1.6, and an antireflection coating (16) formed on at least part of the surface of the substrate (17) between the substrate (17) and an ambient medium with a refractive index nA, preferably with nA=1.0. The antireflection coating (16) consists of a single layer of a material with a refractive index nL of about nL=√{square root over (nAnS)}, in particular nL1.3, and the optical thickness dL of the single layer is about λ/4. The optical element (14) is preferably part of a projection objective (5) in a microlithography projection exposure apparatus (1) and located adjacent to a light-sensitive substrate (10).
대표청구항▼
1. Optical element transparent for radiation with a wavelength λ in the ultraviolet wavelength range below 250 nm, comprising: a substrate with a refractive index ns no larger than 1.8, andan antireflection coating formed on at least part of the surface of the substrate between the substrate and an
1. Optical element transparent for radiation with a wavelength λ in the ultraviolet wavelength range below 250 nm, comprising: a substrate with a refractive index ns no larger than 1.8, andan antireflection coating formed on at least part of the surface of the substrate between the substrate and an ambient medium with a refractive index nA,wherein the antireflection coating comprises low refractive index layers alternating with medium refractive index layers, such that a first low refractive index layer is provided adjacent to the substrate and at least one further low refractive index layer alternates with at least one medium refractive index layer, and such that the first low refractive index layer lies closer to the substrate than do any of the medium refractive index layers,wherein all the medium refractive index layers have optical thicknesses that differ from each other, and all the low refractive index layers have optical thicknesses that differ from each other,wherein the optical thickness of the first low refractive index layer is less than 0.45λ, where λ is 193 nm,wherein the optical thickness of a second low refractive index layer is between 0.26λ and 0.34λ, where λ is 193 nm, and where the second low refractive index layer is arranged on the first low refractive index layer with a medium refractive index layer arranged between the first low refractive index layer and the second low refractive index layer,wherein the optical thicknesses of all the medium and low refractive index layers are such that reflection of the radiation is minimized, andwherein the substrate comprises a material selected from the group consisting of: barium fluoride (BaF2), silicon oxide (SiO2), and potassium chloride (KCl). 2. Optical element according to claim 1, wherein the medium refractive index layers have a refractive index between 1.58 and 1.8, and the low refractive index layers have a refractive index smaller than 1.58. 3. Optical element according to claim 1, wherein a material of the low refractive index layers is selected from the group consisting of: chiolithe (Na5AI3F14), cryolite (Na3AIF6), aluminium fluoride (AIF3), magnesium fluoride (MgF2), silicon oxide (SiO2), calcium fluoride (CaF2), lithium fluoride (LiF), sodium fluoride (NaF), and strontium fluoride (SrF2). 4. Optical element according to claim 1, wherein a material of the medium refractive index layers is selected from the group consisting of: gadolinium fluoride (GdF3), lanthanum fluoride (LaF3), erbium fluoride (ErF3), yttrium fluoride (YF3), neodymium fluoride (NdF3), dysprosium fluoride (DyF3), holmium fluoride (HoF3), scandium fluoride (ScF3), zirconium fluoride (ZrF4), ytterbium fluoride (YbF3), hafnium fluoride (HfF4), and thorium fluoride (ThF3). 5. Optical element according to claim 1, wherein the surface is a hemispherical surface. 6. Projection objective for imaging a structure onto a light-sensitive substrate, having at least one optical element according to claim 1. 7. Projection objective according to claim 6, wherein the optical element is located adjacent to the light-sensitive substrate. 8. Microlithography projection exposure apparatus with a projection objective according to claim 7, wherein an immersion liquid is disposed between the light-sensitive substrate and the optical element which is located adjacent to the light-sensitive substrate. 9. Microlithography projection exposure apparatus with a projection objective according to claim 6, wherein an immersion liquid is disposed between the light-sensitive substrate and the optical element which is located adjacent to the light-sensitive substrate. 10. Optical element transparent for radiation with a wavelength λ in the ultraviolet wavelength range below 250 nm, comprising: a plano-convex substrate with a refractive index ns no larger than 1.8 and with a convex radiation-entrance surface, andan antireflection coating formed on at least part of the convex surface of the substrate between the substrate and an ambient medium with a refractive index nA,wherein the antireflection coating comprises low refractive index layers alternating with medium refractive index layers, such that a first low refractive index layer is provided directly adjacent to the substrate and at least one further low refractive index layer alternates with at least one medium refractive index layer, and such that the first low refractive index layer lies closer to the substrate than do any of the medium refractive index layers,wherein all the medium refractive index layers have optical thicknesses that differ from each other, and all the low refractive index layers have optical thicknesses that differ from each other,wherein the optical thickness of the first low refractive index layer is less than 0.45λ, where λ is 193 nm,wherein the optical thickness of a second low refractive index layer is between 0.26λ and 0.34λ, where λ is 193 nm, and where the second low refractive index layer is arranged on the first low refractive index layer with a medium refractive index layer arranged between the first low refractive index layer and the second low refractive index layer,wherein the optical thicknesses of all the medium and low refractive index layers are such that reflection of the radiation is minimized, andwherein the substrate comprises a material selected from the group consisting of: barium fluoride (BaF2), silicon oxide (SiO2), and potassium chloride (KCl). 11. The optical element according to claim 10, wherein the medium refractive index layers have a refractive index between 1.58 and 1.8, and the low refractive index layers have a refractive index smaller than 1.58. 12. The optical element according to claim 10, wherein a material of the low refractive index layers is selected from the group consisting of: chiolithe (Na5AI3F14), cryolite (Na3AIF6), aluminium fluoride (AIF3), magnesium fluoride (MgF2), silicon oxide (SiO2), calcium fluoride (CaF2), lithium fluoride (LiF), sodium fluoride (NaF), and strontium fluoride (SrF2). 13. The optical element according to claim 10, wherein a material of the medium refractive index layers is selected from the group consisting of: gadolinium fluoride (GdF3), lanthanum fluoride (LaF3), erbium fluoride (ErF3), yttrium fluoride (YF3), neodymium fluoride (NdF3), dysprosium fluoride (DyF3), holmium fluoride (HoF3), scandium fluoride (ScF3), zirconium fluoride (ZrF4), ytterbium fluoride (YbF3), hafnium fluoride (HfF4), and thorium fluoride (ThF3).
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Schuster Karl-Heinz,DEX, Achromatic lens system for ultraviolet radiation with germanium dioxide glass.
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