References
- Gary WM, Tony LW, Lee DF, et al. JWST telescope integration and test progress. Proc SPIE. 2016;9904:990404.
- Wei Z, Xin W, Hua L, et al. Development of space-based diffractive telescopes. Front Inf Technol Electron Eng. 2020;21(4):884–902.
- Haolin Z, Hua L, Wenbin X, et al. Large aperture diffractive optical telescope: a review. Opt Laser Technol. 2020;130:106356.
- Ian MB, Jerald AB, Shamasundar ND, et al. Fabrication of large-aperture lightweight diffractive lenses for use in space. Appl Opt. 2001;40:447–451.
- Jim E, Rod H, Richard B. Twenty-meter space telescope based on diffractive Fresnel lens. Proc SPIE. 2004;5166:148–156.
- Buralli DA, Morris GM. Design of a wide field diffractive landscape lens. Appl Opt. 1989;28(18):3950–3959.
- Mingxu P, Bo Z, Keyan D. Design of achromatic annular folded lens with multilayer diffractive optics for the visible and near-IR wavebands. Opt Express. 2020;28(20):29076.
- Kleemann BH, Seesselberg M, Ruoff J. Design concepts for broadband high-efficiency DOEs. J Eur Opt Soc Rapid Publ. 2008;3:08015.
- Buralli DA, Morris GM. Design of two- and three-element diffractive Keplerian telescopes. Appl Opt. 1992;31(1):38–43.
- Hua L, Zhenwu L, Jinying Y, et al. The characteristics of compound diffractive telescope. Opt Express. 2008;16(20):16195–16201.
- Liangliang Y, Chenglin L, Yongbing Z, et al. Diffraction efficiency model for diffractive optical element with antireflection coatings at different incident angles. Opt Commun. 2021;478:126373.
- Chuanwang H, Peng H, Yiwei H, et al. Simplified unobscured optics design for a diffractive telescope. Appl Opt. 2020;59(6):1660–1666.
- Hyde RA. Eyeglass. 1. Very large aperture diffractive telescopes. Appl Opt. 1999;38(19):4198–4212.
- Hyde RA, Dixit S, Weisberg A, et al. Eyeglass, a very large aperture diffractive space telescope. Proc SPIE. 2002;4849:28–39.
- William DT Jr, Paul A, Jeanette D, et al. MOIRE gossamer space telescope – structural challenges and solutions. AIAA. 2012;1670.
- William DT Jr, Paul A, Jeanette D, et al. MOIRE gossamer space telescope – testing challenges and solutions. AIAA. 2013;1458.
- Paul A, Jeanette D, Kevin W, et al. MOIRE-ground demonstration of a large aperture diffractive transmissive telescope. Proc SPIE. 2014;9143:1–15.
- David W, Larry C, Jeanette D, et al. MOIRE primary diffractive optical element structure deployment testing. AIAA.2015;1836.
- Shanyong C, Cuanchao W, Dede Z, et al. Misalignment measurement of membrane diffractive telescope segments by means of edge sensors with form closure. Appl Opt. 2018;57(31):9397–9405.
- Youngsik K, Yingying Z, Tom M. Molding error and its compensation in multi-order diffractive lens segmented telescope assembly. Optical Fabrication and Testing, Washington, DC. 2021; Otu5B.3.
- Guang J, Junliang Y, Hua L, et al. Flat-stitching error analysis of large-aperture photon sieves. Appl Opt. 2014;53(1):90–95.
- Vitaly IK, Elena AS. Ill-posed inverse problem in diffraction optics. Tolerance analysis of diffractive lenses and gratings. J Opt Soc Am A. 2006;23(2):497–503.
- Shan M, Qingfeng C, Mingxu P. Tolerance analysis of multilayer diffractive optics based on polychromatic integral diffraction efficiency. Appl Opt. 2015;54(32):9528–9532.
- Haolin Z, Hua L, Wenbin X, et al. Error analysis of large-diameter subaperture stitching Fresnel diffractive elements. Appl Opt. 2017;56(27):7672–7678.
- HaoLin Z, Hua L, Angel L, et al. Methods for the performance enhancement and the error characterization of large diameter ground-based diffractive telescopes. Opt Express. 2017;25(22):26662–26677.
- Yang L, Zongliang X, Haotong M, et al. Wide-band high-resolution synthetic imaging of large segmented lightweight diffractive lenses telescope. Opt Lett. 2020;45(7):1790–1793.
- Heinisch RP, Chou TS. Numerical experiments in modeling diffraction phenomena. Appl Opt. 1971;10(10):2248–2251.