电场
联轴节(管道)
凝聚态物理
铁电性
物理
各向异性
Crystal(编程语言)
核磁共振
材料科学
居里温度
铁磁性
电介质
量子力学
冶金
程序设计语言
计算机科学
作者
A. Maisuradze,А. Shengelaya,H. Berger,Dejan M. Djokić,H. Keller
标识
DOI:10.1103/physrevlett.108.247211
摘要
The magnetoelectric (ME) coupling on spin-wave resonances in single-crystal Cu2OSeO3 was studied by a novel technique using electron spin resonance combined with electric field modulation. An external electric field E induces a magnetic field component μ0H(i)=γE along the applied magnetic field H with γ=0.7(1) μT/(V/mm) at 10 K. The ME coupling strength γ is found to be temperature dependent and highly anisotropic. γ(T) nearly follows that of the spin susceptibility J(M)(T) and rapidly decreases above the Curie temperature T(c). The ratio γ/J(M) monotonically decreases with increasing temperature without an anomaly at T(c).
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