[1] WU ZH, LI Y, XIANG L B et al. Full-field heterodyne long-cavity interferometry[J]. Acta Optica Sinica, 39(2019).

     伍洲, 李杨, 相里斌. 全视场外差长腔干涉测量技术[J]. 光学学报, 39(2019).

[2] LÜ T, ZHANG W X, LÜ X Y et al. Full-field heterodyne short coherent topography measurement technology[J]. Opt. Precision Eng., 28, 800-807(2020).

     吕彤, 张文喜, 吕笑宇. 全视场外差短相干形貌测量技术[J]. 光学 精密工程, 28, 800-807(2020).

[3] FAN G X, LI Y, ZHANG W X et al. Full-field heterodyne phase shifting two-wavelength interferometry surface testing technologies[J]. Infrared and Laser Engineering, 51, 132-140(2022).

     樊国翔, 李杨, 张文喜. 全视场外差移相双波长干涉面形检测技术[J]. 红外与激光工程, 51, 132-140(2022).

[4] 尚万祺, 张文喜, 伍洲. 全视场外差干涉三维测量系统[J]. 光学 精密工程, 27, 2097-2104(2019).

     SHANG W Q, ZHANG W X, WU ZH et al. Three-dimensional measurement system based on full-field heterodyne interferometry[J]. Opt. Precision Eng., 27, 2097-2104(2019).

[5] LIU B. Research on Full Field Heterodyne Fizeau Interferometer Technology[D](2020).

     刘博. 全视场外差斐索干涉仪技术研究[D](2020).

[6] 王之昊, 张文喜, 伍洲. 激光测振仪中最小均方误差前向预测器的研究[J]. 光电工程, 49, 210391(2022).

     WANG ZH H, ZHANG W X, WU ZH et al. Research on the forward predictor of minimum mean square error in laser vibrometer[J]. Opto-Electronic Engineering, 49, 210391(2022).

[7] WU C M. Periodic nonlinearity resulting from ghost reflections in heterodyne interferometry[J]. Optics Communications, 215, 17-23(2003).

[8] DENG Y L, LI X J, CHAI J L et al. Influence of parasitic ghost reflection on measurement in a heterodyne interferometric ellipsometer[J]. Optical Technique, 35, 415-418(2009).

     邓元龙, 李学金, 柴金龙. 寄生虚反射对外差干涉椭偏测量的影响[J]. 光学技术, 35, 415-418(2009).

[9] SUN Y T, CHENG Q, HU H X et al. Research on coherent stray light fringes in interference compensation testing[J]. Photonics, 11, 74(2024).

[10] ERSKINE D J, EGGERT J H, CELLIERS P M et al. Ghost fringe removal techniques using Lissajous data presentation[J]. The Review of Scientific Instruments, 87(2016).

[11] TANG C X, WEN S L, ZHANG Y H et al. A method for removing spurious fringes based on characteristic spectrum band-stop filter[C], 24, 16(2020).

[12] 徐凯源, 李大海, 刘昂. 基于小波变换的平板波前死条纹噪声滤除方法[J]. 中国激光, 47, 904008(2020).

     XU K Y, LI D H, LIU A et al. Filtering method of fixed pattern noise in window wavefront based on wavelet transform[J]. Chinese Journal of Lasers, 47, 904008(2020).

[13] FAN X H. Research on the Key Technologies of Low-Coherence Fizeau Dynamic Interferometer[D](2019).

     樊孝贺. 短相干菲索型动态干涉仪的关键技术研究[D](2019).

[14] KIMBROUGH B, MILLERD J, WYANT J et al. Low-coherence vibration insensitive Fizeau interferometer[C](2006).

[15] SUN Q Y, CHEN L, ZHENG D H et al. Dynamic Fizeau interferometer using low-coherence light source[J]. Infrared and Laser Engineering, 47, 220001(2018).

     孙沁园, 陈磊, 郑东晖. 采用短相干光源的动态斐索干涉仪[J]. 红外与激光工程, 47, 220001(2018).

[16] WU Z, ZHANG W X, BIN X L et al. Full-field heterodyne dynamic interferometry based on hertz-level low differential-frequency acousto-optic frequency shifter[C], 1032905(2017).

[17] LIU Z Q, GEMMA T, UDAGAWA S et al. Double-source interferometry for reducing spurious noise fringes[C], 193(2004).

[18] 樊耀轩, 张文喜, 伍洲. 干涉仪仪器传递函数噪声容限分析与优化[J]. 光学 精密工程, 32, 1653-1666(2024).

     FAN Y X, ZHANG W X, WU ZH et al. Analysis and optimization of noise tolerance for interferometer instrument transfer function[J]. Opt. Precision Eng., 32, 1653-1666(2024).

[19] YANG Y Q, LI Y, LÜ T et al. Influence of frequency mixing on measurement accuracy of full-field heterodyne dynamic interferometer[J]. Opt. Precision Eng., 31, 1267-1276(2023).

     杨宇琦, 李杨, 吕彤. 混频对全视场外差动态干涉仪测量精度的影响[J]. 光学 精密工程, 31, 1267-1276(2023).