[1] V. Sankaran, M. J. Everett, D. J. Maitland, J. T. Walsh. Comparison of polarized-light propagation in biological tissue and phantoms. Opt. Lett., 24, 1044(1999).
[2] G. Le Tolguenec, F. Devaux, E. Lantz. Two-dimensional time-resolved direct imaging through thick biological tissues: a new step toward noninvasive medical imaging. Opt. Lett., 24, 1047(1999).
[3] J. M. Schmitt, A. H. Gandjbakhche, R. F. Bonner. Use of polarized light to discriminate short-path photons in a multiply scattering medium. Appl. Opt., 31, 6535(1992).
[4] Z. Gao, X. Yin, W. Zhang, S. Wang, M. Jiang, X. Tao. Electro-optic properties of BaTeMo2O9 single crystal. Appl. Phys. Lett., 95, 151107(2009).
[5] P. Kumar, A. I. Maydykovskiy, M. Levy, N. V. Dubrovin, O. A. Aktsipetrov. Second harmonic generation study of internally-generated strain in bismuth-substituted iron garnet films. Opt. Express, 18, 1076(2010).
[6] Z. L. Gao, Q. Wu, X. T. Liu, Y. X. Sun, X. T. Tao. Biaxial crystal alpha-BaTeMo2O9: theory study of large birefringence and wide-band polarized prisms design. Opt. Express, 23, 3851(2015).
[7] S. B. Mehta, M. Shribak, R. Oldenbourg. Polarized light imaging of birefringence and diattenuation at high resolution and high sensitivity. J. Opt., 15, 094007(2013).
[8] R. Appel, C. D. Dyer, J. N. Lockwood. Design of a broadband UV-visible alpha-barium borate polarizer. Appl. Opt., 41, 2470(2002).
[9] F. Wu, G. Li, J. Huang, D. Yu. Calcite/barium fluoride ultraviolet polarizing prism. Appl. Opt., 34, 3668(1995).
[10] C. H. Huang, G. Zhang, M. Wei, L. X. Huang, X. J. Huang, H. Y. Shen. Investigation of several parameters in the design of YVO4 polarizing prism. Opt. Commun., 224, 1(2003).
[11] I. C. Olson, R. A. Metzler, N. Tamura, M. Kunz, C. E. Killian, P. U. Gilbert. Crystal lattice tilting in prismatic calcite. J. Struct. Biol., 183, 180(2013).
[12] W. Zhang, H. Yu, J. Cantwell, H. Wu, K. R. Poeppelmeier, P. S. Halasyamani. LiNa5Mo9O30: crystal growth, linear, and nonlinear optical properties. Chem. Mater., 28, 4483(2016).
[13] V. A. Sukharev, A. P. Sadovskiy, E. A. Sukhanova, A. D. Dovnarovich, D. A. Spassky, K. M. Podurec, A. A. Kaloyan, V. Nagirnyi, S. I. Omelkov, I. C. Avetissov. Crystal growth and luminescent properties of LiNa5Mo9O30. J. Cryst. Growth, 519, 35(2019).
[14] X. L. Du, Z. L. Gao, F. A. Liu, X. J. Guo, X. M. Wang, Y. X. Sun, X. T. Tao. Anisotropic properties and Raman spectra of a LiNa5Mo9O30 single crystal grown by the TSSG method. Crystengcomm, 22, 7716(2020).
[15] G. Ghosh. Dispersion-equation coefficients for the refractive index and birefringence of calcite and quartz crystals. Opt. Commun., 163, 95(1999).
[16] S. Papernov, G. J. Exarhos, A. W. Schmid, D. Ristau, M. J. Soileau, C. J. Stolz. Laser-induced surface damage of optical materials: absorption sources, initiation, growth, and mitigation. Proc. SPIE, 7132, 71321J(2008).
[17] S. Gangopadhyay. Study of nonlinear optical phenomenon in BaB2O4. Nonlinear Opt. Quantum Opt., 48, 177(2017).
[18] J. A. Piper, H. M. Pask. Crystalline Raman lasers. IEEE J. Sel. Top. Quantum Electron., 13, 692(2007).
[19] G. C. Bhar, A. K. Chaudhary, P. Kumbhakar, A. M. Rudra, S. C. Sabarwal. A comparative study of laser-induced surface damage thresholds in BBO crystals and effect of impurities. Opt. Mater., 27, 119(2004).
[20] V. L. Borodin, I. V. Nefedova. Growth and characteristics of calcite single crystals. J. Cryst. Growth, 275, e633(2005).