Diffraction optical device and optical system including same
First Claim
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1. An imaging optical system comprising:
- an iris stop;
a layered diffraction optical member laminated with a plurality of diffraction parts, wherein said layered diffraction optical member is provided in front of said iris stop; and
a refraction optical member disposed on a rear side of said iris stop,wherein said layered diffraction optical member includes a first diffraction part of negative power and a second diffraction part of positive power provided behind said first diffraction part,wherein said first diffraction part and said second diffraction part each include a diffraction grating, and said diffraction grating of said first diffraction part is made of a material having a dispersion characteristic different from that of a material from which said diffraction grating of said second diffraction part is made,wherein said layered diffraction optical member is formed to have high diffraction efficiency for diffracted light of a particular order over a visible wavelength range to be used in said imaging optical system,wherein said imaging optical system forms an image on an image plane with light that has passed through said layered diffraction optical member, said iris stop, and said refraction optical member, andwherein said layered diffraction optical member further comprises a positive meniscus lens and a positive biconvex lens, with said first diffraction part being disposed on said positive meniscus lens and said second diffraction part being disposed on said positive biconvex lens.
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Abstract
A diffraction optical device includes a first diffraction element and a second diffraction element arranged adjacent to each other. One of the first diffraction element and the second diffraction element has a positive power, and the other has a negative power. The first diffraction element reduces the incident angle of light upon the second diffraction element. As a result, a lowering of diffraction efficiency due to the dependency thereof upon the incident angle of light is suppressed, and flare light is prevented from occurring due to diffracted light of unnecessary orders.
21 Citations
4 Claims
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1. An imaging optical system comprising:
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an iris stop; a layered diffraction optical member laminated with a plurality of diffraction parts, wherein said layered diffraction optical member is provided in front of said iris stop; and a refraction optical member disposed on a rear side of said iris stop, wherein said layered diffraction optical member includes a first diffraction part of negative power and a second diffraction part of positive power provided behind said first diffraction part, wherein said first diffraction part and said second diffraction part each include a diffraction grating, and said diffraction grating of said first diffraction part is made of a material having a dispersion characteristic different from that of a material from which said diffraction grating of said second diffraction part is made, wherein said layered diffraction optical member is formed to have high diffraction efficiency for diffracted light of a particular order over a visible wavelength range to be used in said imaging optical system, wherein said imaging optical system forms an image on an image plane with light that has passed through said layered diffraction optical member, said iris stop, and said refraction optical member, and wherein said layered diffraction optical member further comprises a positive meniscus lens and a positive biconvex lens, with said first diffraction part being disposed on said positive meniscus lens and said second diffraction part being disposed on said positive biconvex lens. - View Dependent Claims (2, 3, 4)
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Specification