马格农
物理
凝聚态物理
激发
反铁磁性
太赫兹辐射
长度收缩
钇铁石榴石
各向异性
洛伦兹变换
光学
量子力学
铁磁性
作者
Xu Ge,Yan Peng,Wei Luo,Shiheng Liang,Yue Zhang
摘要
The theory of special relativity is one of the most significant achievements in modern physics, with several important predictions such as time dilation, size contraction for a moving object, and mass-energy equivalence. Recent studies have demonstrated size contraction for an antiferromagnetic (AFM) domain wall (DW). Here, we show the excitation of terahertz (THz) magnons from a moving AFM DW under the magnetic anisotropy energy gradient. The energy of magnons comes from the loss of the effective DW mass due to the reduction in anisotropy energy. Also, the excitation of THz magnons is accompanied by a DW width broadening, overcoming the Lorentz contraction effect. Our results pave the way to study relativistic physics in AFM textures and to efficiently generate THz magnons by DC electric means.
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