Magnetic field tuning of spin resonance in TmFeO3 single crystal probed with THz transient

凝聚态物理 正铁氧体 反铁磁性 磁场 各向异性 磁各向异性 共振(粒子物理) 自旋波 铁磁性 物理 磁化 光学 原子物理学 量子力学
作者
Jiajia Guo,Long Cheng,Zhuang Ren,Wenjie Zhang,Xian Lin,Zuanming Jin,Shixun Cao,Zhigao Sheng,Guohong Ma
出处
期刊:Journal of Physics: Condensed Matter [IOP Publishing]
卷期号:32 (18): 185401-185401 被引量:12
标识
DOI:10.1088/1361-648x/ab6d0f
摘要

TmFeO3, a canted antiferromagnet, has two intrinsic spin resonance modes in the terahertz (THz) frequency regime: quasi-ferromagnetic (q-FM) mode and quasi-antiferromagnetic (q-AFM) mode. Both the q-FM and q-AFM modes show strong magnetic field and temperature dependence. Hereby, by employing THz time-domain spectroscopy combined with external magnetic field and low temperature system, we systematically investigated the magnetic field induced frequency shift of q-FM and q-AFM modes as well as the temperature driven spin reorientation phase transition in TmFeO3 single crystal. In contrast to the isotropic temperature dependent two-mode, the magnetic field dependence of two-mode is strongly anisotropic: the magnetic field applied along c-axis (a-axis) can harden (soften) the spin resonance frequency of q-FM mode for Γ4 phase of TmFeO3, and the field applied along b-axis shows negligible frequency shift for the q-FM mode, with the q-AFM mode relatively stable. The present study provides solid evidence that the magnetic anisotropy in rare earth orthoferrite plays a dominant role in the q-FM mode and the occurrence of spin reorientation phase transition. With the magnetic anisotropic energy obtained from the temperature dependent q-FM and q-AFM mode frequencies, we can predict both magnetic field and temperature dependence of spin resonance in TmFeO3 single crystal via phenomenological analysis.
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