[1] He, H., Liao, R., Zeng, N., Li, P., Chen, Z., Liu, X., Ma, H.: Mueller matrix polarimetry—an emerging new tool for characterizing the microstructural feature of complex biological specimen. J. Lightwave Technol. 37(11), 2534–2548 (2019)

[2] Qi, J., Elson, D.S.: Mueller polarimetric imaging for surgical and diagnostic applications: a review. J. Biophotonics 10(8), 950–982 (2017)

[3] Tuchin, V.V.: Polarized light interaction with tissues. J. Biomed. Opt. 21(7), 071114 (2016)

[4] Qiu, L., Pleskow, D.K., Chuttani, R., Vitkin, E., Leyden, J., Ozden, N., Itani, S., Guo, L., Sacks, A., Goldsmith, J.D., Modell, M.D., Hanlon, E.B., Itzkan, I., Perelman, L.T.: Multispectral scanning during endoscopy guides biopsy of dysplasia in Barrett’s esophagus. Nat. Med. 16(5), 603–606 (2010)

[5] Gurjar, R.S., Backman, V., Perelman, L.T., Georgakoudi, I., Badizadegan, K., Itzkan, I., Dasari, R.R., Feld, M.S.: Imaging human epithelial properties with polarized light-scattering spectroscopy. Nat. Med. 7(11), 1245–1248 (2001)

[6] Alali, S., Vitkin, A.: Polarized light imaging in biomedicine: emerging Mueller matrix methodologies for bulk tissue assessment. J. Biomed. Opt. 20(6), 061104 (2015)

[7] Shih-Yau, L., Chipman, R.A.: Interpretation of Mueller matrices based on polar decomposition. J. Opt. Soc. Am. A Opt. Image Sci. Vis. 13(5), 1106 (1996)

[8] Ghosh, N., Wood, M.F.G., Vitkin, I.A.: Mueller matrix decomposition for extraction of individual polarization parameters from complex turbid media exhibiting multiple scattering, optical activity, and linear birefringence. J. Biomed. Opt. 13(4), 044036 (2008)

[9] He, H., Zeng, N., Du, E., Guo, Y., Li, D., Liao, R., Ma, H.: A possible quantitative Mueller matrix transformation technique for anisotropic scattering media/Eine mgliche quantitative Mller-Matrix-Transformations-Technik fr anisotrope streuende Medien. Photon. Lasers Med. 2(2), 129–137 (2013)

[10] Tuchin, V.V., Wang, L.V., Zimnyakov, D.A.: Optical polarization in biomedical applications. Springer, Berlin; New York (2006)

[11] Lien, C.H., Chen, Z.H., Phan, Q.H.: Birefringence effect studies of collagen formed by nonenzymatic glycation using dual-retarder Mueller polarimetry. J. Biomed. Opt. 27(8), 087001 (2022)

[12] Dong, Y., Wan, J., Si, L., Meng, Y., Dong, Y., Liu, S., He, H., Ma, H.: Deriving polarimetry feature parameters to characterize microstructural features in histological sections of breast tissues. IEEE Trans. Biomed. Eng. 68(3), 881–892 (2021)

[13] Zaffar, M., Pradhan, A.: Assessment of anisotropy of collagen structures through spatial frequencies of Mueller matrix images for cervical pre-cancer detection. Appl. Opt. 59(4), 1237 (2020)

[14] Du, E., He, H., Zeng, N., Sun, M., Guo, Y., Wu, J., Liu, S., Ma, H.: Mueller matrix polarimetry for differentiating characteristic features of cancerous tissues. J. Biomed. Opt. 19(7), 076013 (2014)

[15] Dong, Y., Wan, J., Wang, X., Xue, J.H., Zou, J., He, H., Li, P., Hou, A., Ma, H.: A polarization-imaging-based machine learning framework for quantitative pathological diagnosis of cervical precancerous lesions. IEEE Trans. Med. Imaging 40(12), 3728–3738 (2021)

[16] Ahmad, I., Ahmad, M., Khan, K., Ashraf, S., Ahmad, S., Ikram, M.: Ex vivo characterization of normal and adenocarcinoma colon samples by Mueller matrix polarimetry. J. Biomed. Opt. 20(5), 056012 (2015)

[17] Ivanov, D., Dremin, V., Bykov, A., Borisova, E., Genova, T., Popov, A., Ossikovski, R., Novikova, T., Meglinski, I.: Colon cancer detection by using Poincar sphere and 2D polarimetric mapping of ex vivo colon samples. J. Biophoton. 13(8), e202000082 (2020)

[18] Le, D.L., Nguyen, D.T., Le, T.H., Phan, Q.H., Pham, T.T.H.: Characterization of healthy and cancerous human skin tissue utilizing Stokes-Mueller polarimetry technique. Opt. Commun. 480, 126460 (2021)

[19] Ushenko, Yu.A., Dubolazov, O.V., Karachevtsev, A.O.: Statistical structure of skin derma Mueller matrix images in the process of cancer changes. Opt. Mem. Neural. Netw. 20(2), 145–154 (2011)

[20] Kim, M., Lee, H.R., Ossikovski, R., Malfait-Jobart, A., Lamarque, D., Novikova, T.: Optical diagnosis of gastric tissue biopsies with Mueller microscopy and statistical analysis. J. Eur. Opt. Soc. Rapid Publ. 18(2), 10 (2022)

[21] Wang, W., Lim, L.G., Srivastava, S., Bok-Yan So, J., Shabbir, A., Liu, Q.: Investigation on the potential of Mueller matrix imaging for digital staining. J. Biophoton. 9(4), 364–375 (2016)

[22] Kodela, R., Vanagala, P.: Polarimetric parameters to categorize normal and malignant thyroid tissue. J. Inst. Electron. Telecommun. Eng. 63(6), 893–897 (2017)

[23] He, H., Sun, M., Zeng, N., Du, E., Liu, S., Guo, Y., Wu, J., He, Y., Ma, H.: Mapping local orientation of aligned fibrous scatterers for cancerous tissues using backscattering Mueller matrix imaging. J. Biomed. Opt. 19(10), 106007 (2014)

[24] He, C., Chang, J., Salter, P., Shen, Y., Dai, B., Li, P., Jin, Y., Thodika, S., Li, M., Tariq, A., Wang, J., Antonello, J., Dong, Y., Qi, J., Lin, J., Elson, D., Zhang, M., He, H., Hui Ma, H., Booth, M.: Revealing complex optical phenomena through vectorial metrics. Adv. Photon. 4(2), 026001 (2022)

[25] Wang, Y., He, H., Chang, J., He, C., Liu, S., Li, M., Zeng, N., Wu, J., Ma, H.: Mueller matrix microscope: a quantitative tool to facilitate detections and fibrosis scorings of liver cirrhosis and cancer tissues. J. Biomed. Opt. 21(7), 071112 (2016)

[26] Chen, B., Li, W., He, H., He, C., Guo, J., Shen, Y., Liu, S., Sun, T., Wu, J., Ma, H.: Analysis and calibration of linear birefringence orientation parameters derived from Mueller matrix for multilayered tissues. Opt. Lasers Eng. 146, 106690 (2021)

[27] Dong, Y., Qi, J., He, H., He, C., Liu, S., Wu, J., Elson, D.S., Ma, H.: Quantitatively characterizing the microstructural features of breast ductal carcinoma tissues in different progression stages by Mueller matrix microscope. Biomed. Opt. Express 8(8), 3643 (2017)

[28] He, C., Chang, J., Hu, Q., Wang, J., Antonello, J., He, H., Liu, S., Lin, J., Dai, B., Elson, D.S., Xi, P., Ma, H., Booth, M.J.: Complex vectorial optics through gradient index lens cascades. Nat. Commun. 10(1), 4264 (2019)

[29] Sun, M., He, H., Zeng, N., Du, E., Guo, Y., Liu, S., Wu, J., He, Y., Ma, H.: Characterizing the microstructures of biological tissues using Mueller matrix and transformed polarization parameters. Biomed. Opt. Express 5(12), 4223 (2014)

[30] Song, J., Zeng, N., Guo, W., Guo, J., Ma, H.: Stokes polarization imaging applied for monitoring dynamic tissue optical clearing. Biomed. Opt. Express 12(8), 4821 (2021)

[31] Zhai, H., Sun, Y., He, H., Chen, B., He, C., Wang, Y., Ma, H.: Distinguishing tissue structures via polarization staining images based on different combinations of Mueller matrix polar decomposition parameters. Opt. Lasers Eng. 152, 106955 (2022)

[32] Rodrguez-Nez, O., Schucht, P., Hewer, E., Novikova, T., Pierangelo, A.: Polarimetric visualization of healthy brain fiber tracts under adverse conditions: ex vivo studies. Biomed. Opt. Express 12(10), 6674 (2021)

[33] Borovkova, M., Bykov, A., Popov, A., Pierangelo, A., Novikova, T., Pahnke, J., Meglinski, I.: Evaluating -amyloidosis progression in Alzheimer’s disease with Mueller polarimetry. Biomed. Opt. Express 11(8), 4509 (2020)

[34] Zhang, Z., Hao, R., Shao, C., Mi, C., He, H., He, C., Du, E., Liu, S., Wu, J., Ma, H.: Analysis and optimization of aberration induced by oblique incidence for in-vivo tissue polarimetry. Opt. Lett. 48(23), 6136 (2023)

[35] Kunnen, B., Macdonald, C., Doronin, A., Jacques, S., Eccles, M., Meglinski, I.: Application of circularly polarized light for non-invasive diagnosis of cancerous tissues and turbid tissue-like scattering media. J. Biophotonics 8(4), 317–323 (2015)

[36] Chen, Y., Chu, J., Lin, F., Jiang, B., Liu, Y., Huang, B., Zhang, R., Xin, B., Ding, X.: Polarization clustering of biological structures with Mueller matrix parameters. J. Biophoton. 16(2), e202200255 (2023)

[37] Borovkova, M.A., Bykov, A.V., Popov, A., Meglinski, I.V.: Role of scattering and birefringence in phase retardation revealed by locus of Stokes vector on Poincar sphere. J. Biomed. Opt. 25(5), 1 (2020)

[38] MacKintosh, F.C., Zhu, J.X., Pine, D.J., Weitz, D.A.: Polarization memory of multiply scattered light. Phys. Rev. B Condens. Matter 40(13), 9342–9345 (1989)

[39] Sankaran, V., Walsh, J.T., Maitland, D.J.: Comparative study of polarized light propagation in biologic tissues. J. Biomed. Opt. 7(3), 300 (2002)

[40] Singh, M.D., Vitkin, I.A.: Discriminating turbid media by scatterer size and scattering coefficient using backscattered linearly and circularly polarized light. Biomed. Opt. Express 12(11), 6831 (2021)

[41] Sun, P., Ma, Y., Liu, W., Xu, C., Sun, X.: Experimentally determined characteristics of the degree of polarization of backscattered light from polystyrene sphere suspensions. J. Opt. 15(5), 055708 (2013)

[42] Ossikovski, R., Gil, J.J., San Jos, I.: Poincar sphere mapping by Mueller matrices. J. Opt. Soc. Am. A Opt. Image Sci. Vis. 30(11), 2291 (2013)

[43] Azzam, R.M.A.: Photopolarimetric measurement of the Mueller matrix by Fourier analysis of a single detected signal. Opt. Lett. 2(6), 148 (1978)

[44] Goldstein, D.H.: Mueller matrix dual-rotating retarder polarimeter. Appl. Opt. 31(31), 6676 (1992)

[45] Goldstein, D.H., Chipman, R.A.: Error analysis of a Mueller matrix polarimeter. J. Opt. Soc. Am. A Opt. Image Sci. Vis. 7(4), 693 (1990)

[46] Du, E., He, H., Zeng, N., Guo, Y., Liao, R., He, Y., Ma, H.: Two-dimensional backscattering Mueller matrix of sphere–cylinder birefringence media. J. Biomed. Opt. 17(12), 126016 (2012)

[47] Yun, T., Zeng, N., Li, W., Li, D., Jiang, X., Ma, H.: Monte Carlo simulation of polarized photon scattering in anisotropic media. Opt. Express 17(19), 16590 (2009)

[48] Song, J., Zeng, N., Ma, H., Tuchin, V.V.: A rapid stokes imaging method for characterizing the optical properties of tissue during immersion optical clearing. IEEE J. Sel. Top. Quantum Electron. 29(4), 1–9 (2023)

[49] Liu, Z., Song, J., Fu, Q., Zeng, N., Ma, H.: Study on anisotropy orientation due to well-ordered fibrous biological microstructures. J. Biomed. Opt. 29(5), 052919 (2024)

[50] Song, J., Fu, Q., Zeng, N., Ma, H.: Microstructural characterization of biological tissues based on sequential Stokes polarization images during dehydration. Opt. Lasers Eng. 177, 108142 (2024)

[51] Song, J., Guo, W., Zeng, N., Ma, H.: Polarization phase unwrapping by a dual-wavelength Mueller matrix imaging system. Opt. Lett. 48(8), 2058 (2023)