Diffractive optical element and optical system including the same
First Claim
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1. A diffractive optical element comprising:
- at least one element portion including a base, a diffraction grating, a substrate, and an intermediate layer, the base and the diffraction grating disposed above the substrate through the intermediate layer,wherein the base and the diffraction grating are formed of a same material, andwherein the following conditional expressions are satisfied;
3.0×
10−
4<
Ka<
1.0×
10−
3, and
Kb<
3.0×
10−
4 where Ka and Kb are an extinction coefficient for the d-line of the material of the diffraction grating and an extinction coefficient for the d-line of a material of the intermediate layer respectively.
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Abstract
A diffractive optical element includes at least one element portion including a base, a diffraction grating, a substrate, and an intermediate layer. The base and the diffraction grating are disposed above the substrate through the intermediate layer, and are formed of a same material. An extinction coefficient for the d-line of the material of the diffraction grating and an extinction coefficient for the d-line of a material of the intermediate layer are properly set to satisfied conditional expressions.
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Citations
13 Claims
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1. A diffractive optical element comprising:
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at least one element portion including a base, a diffraction grating, a substrate, and an intermediate layer, the base and the diffraction grating disposed above the substrate through the intermediate layer, wherein the base and the diffraction grating are formed of a same material, and wherein the following conditional expressions are satisfied;
3.0×
10−
4<
Ka<
1.0×
10−
3, and
Kb<
3.0×
10−
4where Ka and Kb are an extinction coefficient for the d-line of the material of the diffraction grating and an extinction coefficient for the d-line of a material of the intermediate layer respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
where dx is a grating height of the grating section of the sawtooth periodic structure within any period, and Δ
Nd is a difference between refractive indices at a wavelength λ
d of the d-line of the material of the diffraction grating and the d-line of the material of the intermediate layer.
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3. The diffractive optical element according to claim 2, wherein the following conditional expressions are satisfied:
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0.4<
|Δ
Ng/Δ
Nd|<
1.5, and
0.6<
|Δ
NC/Δ
Nd|<
2.2where Δ
Ng is a difference between refractive indices for the g-line of the material of the diffraction grating and the g-line of the material of the intermediate layer, Δ
Nd is a difference between the refractive indices for the d-line of the material of the diffraction grating and the d-line of the material of the intermediate layer, and Δ
NC is a difference between refractive indices for the C-line of the material of the diffraction grating and the C-line of the material of the intermediate layer.
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4. The diffractive optical element according to claim 1, wherein the diffraction grating includes a sawtooth grating portion,
wherein a sawtooth periodic structure is provided at an interface between the intermediate layer and the base, has a period that is the same as a grating period of the diffraction grating, and has a grating section, and wherein the following conditional expression is satisfied: -
|dx×
Δ
Nd×
Δ
P|/(λ
d×
P)<
0.013where dx is the grating height of the grating section of the sawtooth periodic structure within any period, Δ
Nd is a difference between refractive indices at a wavelength λ
d of the d-line of the material of the diffraction grating and the d-line of the material of the intermediate layer, P is a grating pitch of the diffraction grating, and Δ
P is a distance in a grating pitch direction between a position of a maximum height of the grating section of the sawtooth periodic structure and a grating apex of the sawtooth grating portion of the diffraction grating within the same period.
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5. The diffractive optical element according to claim 1, wherein the diffraction grating includes a sawtooth grating portion,
wherein a sawtooth periodic structure is provided at an interface between the intermediate layer and the base, has a period that is the same as a grating period of the diffraction grating, and has a grating section, and wherein the grating section of the sawtooth periodic structure is oriented so that directions in which heights of the grating section and the sawtooth grating portion of the diffraction grating are increased and decreased are the same. -
6. The diffractive optical element according to claim 1, wherein the following conditional expression is satisfied:
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(Da−
D)<
8(μ
m)where D (μ
m) is a maximum grating thickness of the grating portion of the diffraction grating, and Da (μ
m) is a sum of the maximum grating thickness of the grating portion and a maximum grating thickness of the base.
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7. The diffractive optical element according to claim 1, wherein the following conditional expression is satisfied:
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10(μ
m)≦
Dbwhere Db (μ
m) is a thickness of the intermediate layer.
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8. The diffractive optical element according to claim 1, wherein the material of the diffraction grating is one in which a fine-particle material is mixed with a resin material.
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9. The diffractive optical element according to claim 8, wherein an average particle diameter of the fine-particle material is less than or equal to 1/20 of 590 nm.
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10. The diffractive optical element according to claim 8, wherein the fine-particle material is indium tin oxide.
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11. The diffractive optical element according to claim 8, wherein the resin material is ultraviolet curable resin.
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12. An optical system comprising:
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a refractive optical element; and the diffractive optical element of claim 1.
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13. An optical apparatus comprising:
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the optical system according to claim 12; and a photoelectric conversion element that receives an image that is formed by the optical system.
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Specification