[1] Antonelli M R, Pierangelo A, Novikova T et al. Mueller matrix imaging of human colon tissue for cancer diagnostics: how Monte Carlo modeling can help in the interpretation of experimental data[J]. Optics Express, 18, 10200-10208(2010).

[2] Pierangelo A, Benali A, Antonelli M R et al. Ex-vivo characterization of human colon cancer by Mueller polarimetric imaging[J]. Optics Express, 19, 1582-1593(2011).

[3] Pierangelo A, Manhas S, Benali A et al. Multispectral Mueller polarimetric imaging detecting residual cancer and cancer regression after neoadjuvant treatment for colorectal carcinomas[J]. Journal of Biomedical Optics, 18, 046014(2013).

[4] Du E, He H H, Zeng N et al. Mueller matrix polarimetry for differentiating characteristic features of cancerous tissues[J]. Journal of Biomedical Optics, 19, 076013(2014).

[5] Shen Y X, Yao Y, He H H et al. Mueller matrix polarimetry: a label-free, quantitative optical method for clinical diagnosis[J]. Chinese Journal of Lasers, 47, 0207001(2020).

[6] Inoué S. Polarization optical studies of the mitotic spindle I. The demonstration of spindle fibers in living cells[J]. Chromosoma, 5, 487-500(1953).

[7] Mickols W, Maestre M F, Tinoco I. Jr. Differential polarization microscopy of changes in structure in spermatocyte nuclei[J]. Nature, 328, 452-454(1987).

[8] Oldenbourg R. Analysis of edge birefringence[J]. Biophysical Journal, 60, 629-641(1991).

[9] Oldenbourg R. A new view on polarization microscopy[J]. Nature, 381, 811-812(1996).

[10] Liu L, Oldenbourg R, Trimarchi J R et al. A reliable, noninvasive technique for spindle imaging and enucleation of mammalian oocytes[J]. Nature Biotechnology, 18, 223-225(2000).

[11] Wang W H, Meng L, Hackett R J et al. Developmental ability of human oocytes with or without birefringent spindles imaged by Polscope before insemination[J]. Human Reproduction, 16, 1464-1468(2001).

[12] Arteaga O, Baldrís M, Antó J et al. Mueller matrix microscope with a dual continuous rotating compensator setup and digital demodulation[J]. Applied Optics, 53, 2236-2245(2014).

[13] Wang Y, He H H, Chang J T et al. Differentiating characteristic microstructural features of cancerous tissues using Mueller matrix microscope[J]. Micron, 79, 8-15(2015).

[14] Wang Y, He H H, Chang J T et al. Mueller matrix microscope: a quantitative tool to facilitate detections and fibrosis scorings of liver cirrhosis and cancer tissues[J]. Journal of Biomedical Optics, 21, 071112(2016).

[15] Zhou J L, He H H, Chen Z H et al. Modulus design multiwavelength polarization microscope for transmission Mueller matrix imaging[J]. Journal of Biomedical Optics, 23, 016007(2018).

[16] Chen Z H, Meng R Y, Zhu Y H et al. A collinear reflection Mueller matrix microscope for backscattering Mueller matrix imaging[J]. Optics and Lasers in Engineering, 129, 106055(2020).

[17] Liu Y, York T, Akers W J et al. Complementary fluorescence-polarization microscopy using division-of-focal-plane polarization imaging sensor[J]. Journal of Biomedical Optics, 17, 116001(2012).

[18] Chang J T, He H H, Wang Y et al. Division of focal plane polarimeter-based 3×4 Mueller matrix microscope: a potential tool for quick diagnosis of human carcinoma tissues[J]. Journal of Biomedical Optics, 21, 056002(2016).

[19] Roussel S, Boffety M, Goudail F. On the optimal ways to perform full Stokes measurements with a linear division-of-focal-plane polarimetric imager and a retarder[J]. Optics Letters, 44, 2927-2930(2019).

[20] Li H Y, Li C, Li X B et al. Optimization of polarization-camera-based full stokes polarimeter[J]. Acta Optica Sinica, 40, 0326001(2020).

[21] Qi J, He C, Elson D S. Real time complete Stokes polarimetric imager based on a linear polarizer array camera for tissue polarimetric imaging[J]. Biomedical Optics Express, 8, 4933-4946(2017).

[22] Huang T Y, Meng R Y, Qi J et al. Fast Mueller matrix microscope based on dual DoFP polarimeters[J]. Optics Letters, 46, 1676-1679(2021).

[23] Azzam R M. Photopolarimetric measurement of the Mueller matrix by Fourier analysis of a single detected signal[J]. Optics Letters, 2, 148-150(1978).

[24] Dong Y, Qi J, He H H et al. Quantitatively characterizing the microstructural features of breast ductal carcinoma tissues in different progression stages by Mueller matrix microscope[J]. Biomedical Optics Express, 8, 3643-3655(2017).

[25] Goldstein D H, Chipman R A. Error analysis of a Mueller matrix polarimeter[J]. Journal of the Optical Society of America A, 7, 693-700(1990).

[26] Li P C, Lü D H, He H H et al. Separating azimuthal orientation dependence in polarization measurements of anisotropic media[J]. Optics Express, 26, 3791-3800(2018).

[27] Chen Z H, Yao Y, Zhu Y H et al. Removing the dichroism and retardance artifacts in a collinear backscattering Mueller matrix imaging system[J]. Optics Express, 26, 28288-28301(2018).

[28] Chen Z Y, Wang X, Liang R G. Calibration method of microgrid polarimeters with image interpolation[J]. Applied Optics, 54, 995-1001(2015).

[29] Zhao F, Cheng X M, Feng B et al. Comparison research of interpolation algorithms for division of focal plane polarization image[J]. Laser & Optoelectronics Progress, 57, 161014(2020).

[30] Ratliff B M, LaCasse C F, Tyo J S. Interpolation strategies for reducing IFOV artifacts in microgrid polarimeter imagery[J]. Optics Express, 17, 9112-9125(2009).

[31] Chipman R A. Handbook of optics[M]. 3rd ed(2009).

[32] Tyo J S. Design of optimal polarimeters: maximization of signal-to-noise ratio and minimization of systematic error[J]. Applied Optics, 41, 619-630(2002).

[33] Lu S Y, Chipman R A. Interpretation of Mueller matrices based on polar decomposition[J]. Journal of the Optical Society of America A, 13, 1106-1113(1996).

[34] Li P C, Lü D H, He H H et al. Separating azimuthal orientation dependence in polarization measurements of anisotropic media[J]. Optics Express, 26, 3791-3800(2018).

[35] Dong Y, Wan J C, Si L et al. Deriving polarimetry feature parameters to characterize microstructural features in histological sections of breast tissues[J]. IEEE Transactions on Bio-Medical Engineering, 68, 881-892(2021).