[1] Kimel A V, Kirilyuk A, Tsvetkov A, et al. Laser-induced ultrafast spin reorientation in the antiferromagnet TmFeO3［J］. Nature,2004,429: 850.

[2] Suemoto T, Nakamura K, Kurihara T, et al. Magnetization-free measurements of spin orientations in orthoferrites using terahertz time domain spectroscopy［J］.Applied Physics Letters,2015,107(4): 042404(1-4).

[3] Zhao H J, Bellaiche L, Chen X M, et al. Improper electric polarization in simple perovskite oxides with two magnetic sublattices［J］.Nature Communications,2017,8: 14025.

[4] Das H, Wysocki A L, Geng Y, et al. Bulk magnetoelectricity in the hexagonal manganites and ferrites［J］.Nature Communications,2014,5: 2998.

[5] Li X W, Bamba M, Yuan N, et al. Observation of Dicke cooerativity in magnetic interactions［J］.Science,2018,361: 794.

[6] Manipatruni S, Nikonov D E, Lin C C, et al. Scalable energy-efficient magnetoelectric spin-orbit logic［J］.Nature, 2018,565: 35.

[7] Peng J, Zhang Y, Lin L F, et al. New iron-based multiferroics with improper ferroelectricity［J］.Physics D-Applied physics,2018,51(24): 243002.

[8] Pillai V, Kumar P, Shah D O, et al. Magnetic properties of barium ferrite synthesized using a microemilsion mediated process［J］.Journal of Magnetism and Magnetic Materials,1992,116: 299-304.

[10] Tsymbal L T, Kamenev V I, Bazaliy Y B, et al. Structural properties of ErFeO3 in the spin-reorientation region［J］.Physical Review B,2005,72(5): 052413(1-4).

[11] Spaldin N A, Fiebig M. The renaissance of magnetoelectric multiferroics［J］.Science.2005,309(5733): 391-392.

[12] Eerenstein W, Mathur N, Scott J F, et al. Multiferroic and magnetoelectric materials［J］.Nature,2006,442(7104): 759-765.

[13] Tsymbal L T, Bazaliy Y B, Derkachenko V N, et al. Magnetic and structural properties of spin-reorientation transitions in orthoferrites［J］.Journal of Applied Physics,2007,101(12): 123919(1-7).

[14] Goto T, Kimura T, Lawes G, et al. Ferroelectricity and giant magnetocapacitance in perovskite rare-earth manganites［J］. Physical Review Letters,2004,92(25): 257201.

[15] Stevens K W H. Matrix elements and operator equivalents connected with the magnetic properties of rare earth ions［J］.Proceedings of the Physical Society. Section A,1951,65(3): 209-215.

[16] Dzyaloshinsky I. A thermodynamic theory of “weak” ferromagnetism of antiferromagnetics［J］.Journal of Physics and Chemistry of Solids,1958,4(4): 241-255.

[17] Yang I, Bang K, Kim B, et al. Superexchange interaction and anisotropic superexchange (Dzyaloshinskii-Moriya) interaction［J］.Journal of the korean magnetics society,2007,17(5): 215-220.

[18] Ye M, Vanderbilt D. Magnetic charges and magnetoelectricity in hexagonal rare-earth manganites and ferrites［J］.Physical Review B,2015,92(3): 035107.

[19] Anderson P W. Antiferromagnetism theory of superexchange interaction［J］.Physical Review,1950,79: 350-356.

[20] Goodenough J B. Theory of the role of covalence in the perovskite-type manganites ［La,M(II)］MnO3［J］.Physical Review, 1955,100: 564-573.

[21] Shen H, Xu J Y, Wu A H, et al. Magnetic and thermal properties of pervoskite YFeO3 single crystal［J］.Materials Science and Engineering B,2009,157: 77.

[22] Shen H, Xu J Y, Wu A H, et al. Growth and characterization of magneto-optical YFeO3 crystal［J］.Crystal Research and Technology,2007,42: 943-947.

[23] Shen H, Cheng Z X, Hong F, et al. Magnetic field induced discontinuous spin reorientation in ErFeO3 single crystal［J］.Applied Physics Letters,2013,103: 192404(1-5).

[25] Cao S, Zhao H, Kang B, et al. Temperature induced spin switching in SmFeO3 single crystal［J］.Scientific Reports,2014,4: 5960.

[26] Zhao X, Zhang K, Xu K, et al. Crystal growth and spin reorientation transition in Sm0.4Er0.6FeO3 orthoferrite［J］.Solid State Communications,2016: S0038109816000429.

[27] Shen H, Xian Q, Xie T, et al. Modulation of magnetic transitions in SmFeO3 single crystal by Pr3+ substitution［J］.Journal of Magnetism and Magnetic Materials,2018,466: 81-86.

[28] Galstyan O, Lee H, Park J, et al. Influence of bismuth substitution on yttrium orthoferrite thin films preparation by the MOD method［J］.Journal of Magnetism and Magnetic Materials,2016,397: 310-314.

[29] Yamaguchi K, Nakajima M, Suemoto T. Coherent control of spin precession motion with impulsive magnetic fields of half-cycle terahertz radiation［J］.Physical Review Letters,2010,105(23): 237201(1-4).

[30] Kalashnikova A M, Pisarev R V. Electronic structure of hexagonal rare-earth manganites RMnO3［J］.journal of experimental & theoretical physics letters, 2003,78(3): 143-147.

[31] Cao S X, Sinha K, Zhang X, et al. Electronic structure and direct observation of ferrimagnetism in multiferroic hexagonal YbFeO3［J］.Phys. Rev. B,2017,95: 224428.

[32] Du K, Gao B, Wang Y Z, et al. Vortex ferroelectric domains large-loop weak ferromagnetic domains and their decoupling in hexagonal (Lu, Sc)FeO3［J］.npj Quantum Materials,2018,3: 33.

[33] Chaturvedi S, Shyam P, Shirolkar M M, et al. Tunable magnetization in nanoscale LuFeO3: Role of morphology, ortho-hexa phase ratio and local structure［J］.2019,10(45): 21406-21413.

[34] Zhang R L, Chen C L, Zhang Y J, et al. Ferroelectricity in hexagonal YFeO3 film at room temperature［J］.Chin. Phys. B,2015,24: 498.

[35] Masuno A, Ishimoto A, Moriyoshi C, et al. Weak ferromagnetic transition with a dielectric anomaly in hexagonal Lu0.5Sc0.5FeO3［J］.Inorganic Chemistry,2013,52(20): 11889.

[36] White J, Sinha K, Xu X. Structural phase diagram and magnetic properties of Sc-substituted rare earth ferrites R1-xScxFeO3(R=Lu,Yb, Er, and Ho)［J］.Journal of Applied Physics,2019,125(24): 244101(1-7).

[37] Liu J, Sun T L, Liu X Q, et al. A novel room-temperature multiferroic system of hexagonal Lu1-xInxFeO3［J］.Advanced Functional Materials,2018,28(13): 1706062.

[38] Liu M Y, Gao T T, Zhu X L, et al. Ferroelectricity and magnetoelectric coupling in hexagonal Lu0.5In0.5FeO3 ceramics［J］.Journal of Applied Physics,2019,126: 164101.

[39] Koohpayeh S M, Abell J S, Bamzai K K, et al. The influence of growth rate on the microstructural and magnetic properties of float-zone grown ErFeO3 crystals［J］.Journal of Magnetism & Magnetic Materials,2007, 09(1): 119-125.

[40] Liu F L, Xu C S, Shen S D, et al. Pressure-induced large enhancement of Néel temperature and electric polarization in the hexagonal multiferroic Lu0.5Sc0.5FeO3［J］.Physical Review B,2019,100: 214408.