论文信息 - Modeling diffraction efficiency effects when designing hybrid diffractive lens systems.

Modeling diffraction efficiency effects when designing hybrid diffractive lens systems.

We investigated the design of two broadband hybrid diffractive-refractive optical systems, a landscape lens, and a Schmidt telescope. The systems were achromatized by using the characteristically large negative dispersion of kinoforms. In the scalar wave regime kinoforms can approach 100% efficiency but only for one object point and wavelength. We evaluated polychromatic image quality, accounting for diffraction efficiency, by constructing weighted geometric point-spread functions from several diffracted orders and then calculating modulation transfer functions (MTF's). The MTF's of the hybrid achromats were improved at high spatial frequencies but were reduced at low frequencies because of diffraction into nondesign orders.

P. Clark | C. Londoño | C Londoño | P P Clark

[1] W. Sweatt. Describing holographic optical elements as lenses , 1977 .

[2] W. Plummer. Focus screen optimization. , 1975, Applied optics.

[3] G. Swanson. Binary Optics Technology: The Theory and Design of Multi-Level Diffractive Optical Elements , 1989 .

[4] Michael J. Hayford,et al. Optical Design Of Holographic Optical Element (HOE) Construction Optics , 1986, Other Conferences.

[5] J. L. Soret. Ueber die durch Kreisgitter erzeugten Diffractionsphänomene , 1875 .

[6] J. Rogers,et al. Optical performance of holographic kinoforms. , 1989, Applied optics.