[1] J C Li, H A Lin, J X Luo et al. Optical design of space gravitational wave detection telescope. Chin Opt, 15, 761-769(2022).
[2] W T Fan, H C Zhao, L Fan et al. Preliminary analysis of space gravitational wave detection telescope system technology. Acta Sci Nat Univ Sunyatseni, 60, 178-185(2021).
[3] T Edwards, M C M Sandford, A Hammesfahr. LISA — a study of the ESA cornerstone mission for observing gravitational waves. Acta Astronaut, 48, 549-557(2001).
[5] H W Jiang, X H Niu. Stray light analysis and suppression of the visible to terahertz integrated cloud detection optical system. Sensors, 23, 4115(2023).
[6] J L Stauder, R W Esplin, L Zollinger et al. Stray-light analysis of the SABER telescope. Proc SPIE, 2553, 264-270(1995).
[7] J O Park, W K Jang, S H Kim et al. Stray light analysis of high resolution camera for a low-earth-orbit satellite. J Opt Soc Korea, 15, 52-55(2011).
[8] M J Sholl, F S Grochocki, J C Fleming et al. Stray light design and analysis of the SNAP Telescope. Proc SPIE, 6675, 66750C(2007).
[9] S O Rice. Reflection of electromagnetic waves from slightly rough surfaces. Commun Pure Appl Math, 4, 351-378(1951).
[10] E L Church, H A Jenkinson, J M Zavada. Relationship between surface scattering and microtopographic features. Opt Eng, 18, 125-136(1979).
[11] J E Harvey. Parametric analysis of the effect of scattered light upon the modulation transfer function. Opt Eng, 52, 073110(2013).
[12] J C Stover, J E Harvey. Limitations of Rayleigh rice perturbation theory for describing surface scatter. Proc SPIE, 6672, 66720B(2007).
[13] P Beckmann, A Spizzichino. The scattering of electromagnetic waves from rough surfaces(1987).
[14] C L Vernold, J E Harvey. Modified Beckmann-Kirchoff scattering theory for nonparaxial angles. Proc SPIE, 3426, 51-56(1998).
[15] S D Butler, S E Nauyoks, M A Marciniak. Comparison of microfacet BRDF model to modified Beckmann-Kirchhoff BRDF model for rough and smooth surfaces. Opt Express, 23, 29100-29112(2015).
[16] J E Harvey, K L Lewotsky. Scattering from multilayer coatings: a linear systems model. Proc SPIE, 1530, 35-41(1991).
[17] J E Harvey. Surface scatter phenomena: a linear, shift-invariant process. Proc SPIE, 1165, 87-99(1990).
[18] J E Harvey. Light-scattering characteristics of optical surfaces. Proc SPIE, 107, 41-47(1977).
[19] J E Harvey, C L Vernold, A Krywonos et al. Diffracted radiance: a fundamental quantity in nonparaxial scalar diffraction theory. Appl Opt., 38, 6469-6481(1999).
[20] Z P Ma, H Wang, Q F Chen et al. Implementation of empirical modified generalized Harvey–Shack scatter model on smooth surface. J Opt Soc Am B, 39, 1730-1735(2022).
[21] J E Harvey, A Krywonos, C L Vernold. Modified Beckmann-Kirchhoff scattering model for rough surfaces with large incident and scattering angles. Opt Eng, 46, 078002(2007).
[22] A Krywonos. Predicting surface scatter using a linear systems formulation of non-paraxial scalar diffraction(2006).
[23] J C Stover. Optical Scattering: Measurement and Analysis, 48(1995).
[24] Y P Zhao, I Wu, C F Cheng et al. Characterization of random rough surfaces by in-plane light scattering. J Appl Phys, 84, 2571-2582(1998).
[25] B L Sang, X Q Deng, W Tao et al. Stray light analysis and suppression of Taiji telescope for space gravitational wave detection based on phase noise requirement. Appl Sci, 13, 2923(2023).
[26] R G Priest, S R Meier. Polarimetric microfacet scattering theory with applications to absorptive and reflective surfaces. Opt Eng, 41, 988-993(2002).
[27] A K Fung, Z Li, K S Chen. Backscattering from a randomly rough dielectric surface. IEEE Trans Geosci Remote Sens, 30, 356-369(1992).
[28] W Feller. An Introduction to Probability Theory and Its Applications, Volume 2, 704(1971).
[29] Y G Zhang. Study on optical scattering characteristics of surface micromorphology for optical elements(2017).
[30] K P Zhang. Assessing surface quality for optical components by light scattering measurement(2019).
