[1] M Padgett. Detection of a spinning object using light's orbital angular momentum. Science, 2, 764-768(2013).
[2] W Zhang, J Gao, D Zhang, et al. Free-space remote sensing of rotation at the photon-counting level. Physical Review Applied, 10, 044014(2018).
[3] Z Zhang, L Cen, J Zhang, et al. Rotation velocity detection with orbital angular momentum light spot completely deviated out of the rotation center. Opt Express, 28, 6859-6867(2020).
[4] S Fu, T Wang, Z Zhang, et al. Non-diffractive Bessel-Gauss beams for the detection of rotating object free of obstructions. Opt Express, 25, 20098-20108(2017).
[5] Ziling Fu, Zhi Wang, Can Cui, et al. Angular velocity measurement based on rotational Doppler effect of vortex beam. Laser & Optoelectronics Progress, 56, 180501(2019).
[6] S Qiu, T Liu, Z Li, et al. Influence of lateral misalignment on the optical rotational Doppler effect. Appl Opt, 58, 2650-2655(2019).
[7] S Qiu, T Liu, Y Ren, et al. Detection of spinning objects at oblique light incidence using the optical rotational Doppler effect. Opt Express, 27, 24781-24792(2019).
[8] S Qiu, Y Ren, T Liu, et al. Detecting the speed of a rotational cylinder based on Doppler effect of optical vortex. Acta Optica Sinica, 40, 2026001(2020).
[9] Z Li, T Liu, Y Ren, et al. Direction-sensitive detection of a spinning object using dual-frequency vortex light. Opt Express, 29, 7453-7463(2021).
[10] Liren Guo, Yihua Hu, Lizheng, et al. Influence of Local Oscillate power on micro-motion balanced heterodyne detection for Lidar. Infrared and Laser Engineering, 44, 2933-2937(2015).
[11] D Fink. Coherent detection signal-to-noise. Appl Opt, 14, 689-690(1975).
[12] Hexi Liang, Yonghong Dai, Yong Ai, et al. Design and test of space optical coupling balance detector. Infrared and Laser Engineering, 46, 0320002(2017).
[13] Shilin Xiao, Qingji Zeng. Application of optical coherent detection. Optical Coherent Technology, 28-31(2003).
[14] Zhi Zhong, Jiubin Tan, Hongwen Ma, et al. Study on fast ultra-precision measurement model in laser heterodyne interferometry. Acta Optica Sinica, 25, 791-794(2005).
[15] Long Gao, Chunhui Wang, Yanchao Li, et al. Theory analysis of polarization mixing error in dual-balanced heterodyne detection. Infrared and Laser Engineering, 39, 422-426(2010).
[16] Yu Li, Shu Zhang, Jian Zhou, et al. Application of dual-balanced detection in laser velocimeter. High Power Laser and Particle Beams, 28, 101004(2016).
[17] H P Yuen, V W Chan. Noise in homodyne and heterodyne detection: errata. Opt Lett, 8, 345(1983).
[18] G Abbas, V Chan, Y Ting. A dual-detector optical heterodyne receiver for local oscillator noise suppression. Journal of Lightwave Technology, 3, 1110-1122(1985).
[19] C Rosales-Guzman, N Hermosa, A Belmonte, et al. Experimental detection of transverse particle movement with structured light. Sci Rep, 3, 2815(2013).
[20] C Rosales-Guzman, N Hermosa, A Belmonte, et al. Direction-sensitive transverse velocity measurement by phase-modulated structured light beams. Opt Lett, 39, 5415-5418(2014).
[21] A Q Anderson, E F Strong, B M Heffernan, et al. Detection technique effect on rotational Doppler measurements. Opt Lett, 45, 2636-2639(2020).
[22] Li Yu. Research on the heterodyne detection system based on balanced detect[D]. Changsha: National University of Defense Technology, 2015. (in Chinese)
[23] Xiong Daming. Research on key techniques of optical heterodyne balance detection[D]. Wuhan: Wuhan Research Institute of Posts Telecommunications, 2020. (in Chinese)
[24] Hexi Liang, Yonghong Dai, Yong Ai, et al. Influence of local oscillator power on sensitivity of coherent detection of space balanced detection. Optics and Precision Engineering, 25, 334-341(2017).