[1] I SNETKOV, O PALASHOV. Faraday isolator based on a TSAG single crystal with compensation of thermally induced depolarization inside magnetic field. Optical Materials, 293-297(2015).

[2] V O PELENOVICH, U V VALIEV, L ZHOU et al. Magneto- optical spectrometer based on photoelastic modulator with optical feedback and its application in study of f-electron materials. Optical Materials, 115-120(2016).

[3] Y WANG, L ZHANG, Z ZHUO et al. All-normal dispersion fiber lasers with magneto-optical polarization controllers. Applied Optics, 404-408(2017).

[4] I CRASSEE, J LEVALLOIS, A L WALTER et al. Giant Faraday rotation in single and multilayer graphene. Nature Physics, 48-51(2011).

[5] R C LECRAW, D L WOOD, J F DILLON et al. The optical transparency of yttrium iron garnet in the near Infrared. Applied Physics Letters, 27-28(1965).

[6] S DURCOK, E POLLERT, Z SIMSA et al. Growth of YIG and BiGdIG single crystals for magnetooptical applications. Materials Chemistry & Physics, 124-129(1996).

[7] H GOTO, I MAEDA, T NAKANO et al. An evaluation of the magneto-optical characteristics of YIG single crystals. Journal of Magnetism & Magnetic Materials, 779-780(1983).

[8] H J LIM, MATTEI R C DE, R S FEIGELSON. Growth of single crystal YIG fibers by the laser heated pedestal growth method. MRS Online Proceedings Library (OPL), 83-88(1997).

[9] Y JIANG, H SHEN, J Y XU et al. Large size rare earth iron garnet single crystals grown by the flux-Bridgman method. Journal of Rare Earths, 1547-1553(2021).

[10] W JIN, L GAI, C LI et al. Crystal growth and characterization of Ce_xY_3-xFe₅O₁₂single crystal by optical floating zone method. Physica B Condensed Matter(2020).

[11] A IKESUE, Y L AUNG. Development of optical grade polycrystalline YIG ceramics for Faraday rotator. Journal of the American Ceramic Society, 5120-5126(2018).

[12] H XU, H YANG. Magnetic properties of Ce, Dy-substituted yttrium iron garnet ferrite powders fabricated using a Sol-Gel method. Physica Status Solidi (a), 1203-1209(2007).

[13] J Q WANG, J YANG, Y L JIN et al. Effect of manganese addition on the microstructure and electromagnetic properties of YIG. Journal of Rare Earths (English Edition), 566(2011).

[14] W J TABOR, A W ANDERSON, L G VANUITERT. Visible and infrared Faraday rotation and birefringence of single-crystal rare- earth orthoferrites. Journal of Applied Physics, 3018-3021(1970).

[15] R W COOPER, J F DILLON, L G VANUITERT et al. Magneto- optic light modulators. Radio and Electronic Engineer, 302-304(1970).

[16] F J KAHN, P S PERSHAN, J P REMEIKA. Ultraviolet magneto- optical properties of single-crystal ortho-ferrites, garnets, and other ferric oxide compounds. Physical Review, 891(1969).

[17] P B A FECHINE, R S T MORETZSOHN, R C S COSTA et al. Magneto-dielectric properties of the Y₃Fe₅O₁₂ and Gd₃Fe₅O₁₂ dielectric ferrite resonator antennas. Microwave and Optical Technology Letters, 2852-2857(2008).

[18] Y L AUNG, A IKESUE, T WATANABE et al. Bi substituted YIG ceramics isolator for optical communication. Journal of Alloys & Compounds(2019).

[19] G B SCOTT, D E LACKLISON, J L PAGE. The effect of octahedral Fe³⁺and tetrahedral Fe³⁺dilution on the Faraday spectra of bismuth-doped iron garnets. Journal of Physics C: Solid State Physics, 519-529(1975).

[20] J L DESCHANVRES, M LANGLET, B BOCHU et al. Growth of Bi-substituted YIG thin films for magneto-optic applications. Journal of Magnetism and Magnetic Materials, 224-226(1991).

[21] G A ALLEN, G F DIONNE. Application of permittivity tensor for accurate interpretation of magneto-optical spectra. Journal of Applied Physics, 6130-6132(1993).

[22] T ISHIBASHI, G LOU, A MEGURO et al. Magneto-optical imaging plate using bismuth-substituted iron garnet film prepared by metal-organic decomposition. Sensors and materials: An International Journal on Sensor Technology, 965-970(2015).

[23] G ZHANG, X XU, T CHONG. Faraday rotation spectra of bismuth-substituted rare-earth iron garnet crystals in optical communication band. Journal of Applied Physics, 5267-5270(2004).

[24] Y YANG, X LI, Z LIU et al. Pressureless sintering of YIG ceramics from coprecipitated nano-powders. Magnetochemistry, 56(2021).

[25] M NIYAIFAR, H MOHAMMADPOUR. Study on magnetic role of Bi³⁺ ion by random cation distribution model in Bi-YIG system. Journal of Magnetism and Magnetic Materials, 65-70(2015).