Faklis D, Morris G M
Appl Opt. 1995 May 10;34(14):2462-8. doi: 10.1364/AO.34.002462.
Diffractive lenses have been traditionally designed with the first diffracted order. The spectral characteristics of diffractive lenses operating in higher diffracted orders differ significantly from the first-order case. Multiorder diffractive lenses offer a new degree of freedom in the design of broadband and multispectral optical systems that include diffractive optical elements. It is shown that blazing the surface-relief diffractive lens for higher diffraction orders enables the design of achromatic and apochromatic singlets. The wavelength-dependent optical transfer function and the associated Strehl ratio are derived for multiorder diffractive lenses. Experiments that illustrate lens performance in two spectral bands are described, and the results show excellent agreement with the theoretical predictions.
传统上,衍射透镜是按一级衍射来设计的。工作在高阶衍射级次的衍射透镜的光谱特性与一级衍射的情况有显著差异。多阶衍射透镜为包含衍射光学元件的宽带和多光谱光学系统的设计提供了新的自由度。结果表明,对表面浮雕衍射透镜进行高阶衍射刻槽能够实现消色差和复消色差单透镜的设计。推导了多阶衍射透镜的波长相关光学传递函数及相关的斯特列尔比。描述了说明透镜在两个光谱波段性能的实验,结果与理论预测吻合良好。