An antireflection structure (10) comprises a base (1), and a finely roughened antireflection part (2) formed in a surface of the base (1). The finely roughened antireflection part (2) includes a plurality of projections and depressions defined by the projections. The projections are distributed such
An antireflection structure (10) comprises a base (1), and a finely roughened antireflection part (2) formed in a surface of the base (1). The finely roughened antireflection part (2) includes a plurality of projections and depressions defined by the projections. The projections are distributed such that PMAX≦λMIN, where PMAX is the biggest one of distances between tips (2t) of the adjacent projections and λMIN is the shortest one of wavelengths of visible light rays in a vacuum. The sectional area of each projection in a plane parallel to the surface of the base (1) increases continuously from the tip (2t) toward the bottom (2b) of the depression adjacent to the projection. The shape (2Mt) of a tip part (Mt) of each projection in a plane perpendicular to the surface of the base (1) is sharper than the shape (2Mb) of a bottom part (Mb) of each depression in the same plane vertical to the surface of the base (1).
대표청구항▼
What is claimed is: 1. An antireflection structure, comprising: a base having a shape of a flat plate; and a finely roughened antireflection part formed integrally with the base; wherein: (1) the finely roughened antireflection part includes a plurality of projections and a plurality of depressions
What is claimed is: 1. An antireflection structure, comprising: a base having a shape of a flat plate; and a finely roughened antireflection part formed integrally with the base; wherein: (1) the finely roughened antireflection part includes a plurality of projections and a plurality of depressions defined by the projections, no other layer covering the plurality of projections and the plurality of depressions such that the surface of the plurality of projections and the plurality of depressions is exposed to the air; (2) the projections are distributed such that PMAX≦λMIN, where PMAX is a greatest distance between tips of adjacent projections and λMIN is a shortest wavelength of visible light in a vacuum; (3) a horizontal cross-sectional area of the projections increases continuously from the tips of the projections to bottoms of the depressions so that a ratio of the horizontal cross-sectional area of the projections to a cross-sectional area of the finely roughened antireflection part in a plane including the bottoms of the depressions increases continuously from 0% to 100% from the tips of the projections to the bottoms of the depressions; (4) a vertical cross-sectional shape of each projection is sharper at a tip part of each projection than at a bottom part of each depression; (5) a vertical cross-sectional shape of the finely roughened antireflection part includes only curved edges; and (6) the base and the finely roughened part are formed of a same material. 2. The antireflection structure according to claim 1, wherein the finely roughened antireflection part meets inequalities: nb≧1 and PMAX≦λMIN/nb, where nb is the refractive index of the base. 3. The antireflection structure according to claim 1, wherein: a vertical cross-section of the finely roughened antireflection part has a height H; and a tip part of the vertical cross-section above a level of H/2 has a smaller cross-sectional area than a bottom part of the vertical cross-section below the level of H/2. 4. The antireflection structure according to claim 3, wherein: at the level H/2, a vertical cross-section of each projection has a first width and a vertical cross-section of each depression has a second width; and the second width is greater than the first width. 5. The antireflection structure according to claim 1, wherein a vertical cross-sectional shape of each depression is symmetrical. 6. The antireflection structure according to claim 1, wherein a vertical cross-sectional shape of each projection is asymmetrical. 7. The antireflection structure according to claim 1, wherein the base comprises a main base portion and a surface base portion, the finely roughened antireflection part being provided on the surface base portion. 8. An antireflection structure, comprising: a base having a shape of a flat plate; and a finely roughened antireflection part formed integrally with the base; wherein: (1) the finely roughened antireflection part includes a plurality of projections and a plurality of depressions defined by the projections; (2) the projections are distributed such that PMAX ≦λMIN, where PMAX is a greatest distance between tips of adjacent projections and λMIN is a shortest wavelength of visible light in a vacuum; (3) a horizontal cross-sectional area of the projections increases continuously from the tips of the projections to bottoms of the depressions so that a ratio of the horizontal cross-sectional area of the projections to a cross-sectional area of the finely roughened antireflection part in a plane including the bottoms of the depressions increases continuously from 0% to 100% from the tips of the projections to the bottoms of the depressions; (4) a vertical cross-sectional shape of each projection is sharper at a tip part of each projection than at a bottom part of each depression; and (5) the plurality of projections have a cross-sectional shape defined by two opposite sides, each side extending from the tip of the projection to the bottom of the depression, each side having two planar surfaces disposed at an obtuse angle to each other. 9. The antireflection structure according to claim 8, wherein the finely roughened antireflection part meets inequalities: nb≧1 and PMAX≦λMIN/nb, where nb is the refractive index of the base. 10. The antireflection structure according to claim 8, wherein a tip part of the vertical cross-section above a level of H/2 has a smaller cross-sectional area than a bottom part of the vertical cross-section below the level of H/2. 11. The antireflection structure according to claim 10, wherein at the level H/2, a vertical cross-section of each projection has a first width and a vertical cross-section of each depression has a second width; and the second width is greater than the first width. 12. The antireflection structure according to claim 8, wherein a vertical cross-sectional shape of each depression is symmetrical. 13. The antireflection structure according to claim 8, wherein a vertical cross-sectional shape of each projection is asymmetrical. 14. The antireflection structure according to claim 8, wherein the base and the finely roughened part are formed of the same material. 15. The antireflection structure according to claim 8, wherein the base comprises a main base portion and a surface base portion, the finely roughened antireflection part being provided on the surface base portion. 16. An antireflection structure, comprising: a base having a shape of a flat plate; and a finely roughened antireflection part formed integrally with the base; wherein: (1) the finely roughened antireflection part includes a plurality of projections and a plurality of depressions defined by the projections, no other layer covering the plurality of projections and the plurality of depressions such that the surface of the plurality of projections and the plurality of depressions is exposed to the air; (2) the projections are distributed such that PMAXλMIN, where PMAX is a greatest distance between tips of adjacent projections and λMIN is a shortest wavelength of visible light in a vacuum; (3) a horizontal cross-sectional area of the projections increases continuously from the tips of the projections to bottoms of the depressions so that a ratio of the horizontal cross-sectional area of the projections to a cross-sectional area of the finely roughened antireflection part in a plane including the bottoms of the depressions increases continuously from 0% to 100% from the tips of the projections to the bottoms of the depressions; (4) a vertical cross-sectional shape of each projection is sharper at a tip part of each projection than at a bottom part of each depression; and (5) the plurality of projections have a cross-sectional shape including two opposite sides, each side extending from the tip of the projection to the bottom of the depression, each side having two planar surfaces disposed at an obtuse angle to each other. 17. The antireflection structure according to claim 16, wherein the finely roughened antireflection part meets inequalities: nb≧1 and PMAXλMIN/nb, where nb is the refractive index of the base. 18. The antireflection structure according to claim 16, wherein: a vertical cross-section of the finely roughened antireflection part has a height H; and a tip part of the vertical cross-section above a level of H/2 has a smaller cross-sectional area than a bottom part of the vertical cross-section below the level of H/2. 19. The antireflection structure according to claim 16, wherein a vertical cross-sectional shape of each depression is symmetrical. 20. The antireflection structure according to claim 16, wherein a vertical cross-sectional shape of each projection is asymmetrical. 21. The antireflection structure according to claim 16, wherein the base comprises a main base portion and a surface base portion, the finely roughened antireflection part being provided on the surface base portion.
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