Nutation in antiferromagnetic resonance

Ritwik Mondal, Sebastian Großenbach, Levente Rózsa, U. Nowak
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引用次数: 9

Abstract

The effect of inertial spin dynamics is compared between ferromagnetic, antiferromagnetic and ferrimagnetic systems. The linear response to an oscillating external magnetic field is calculated within the framework of the inertial Landau--Lifshitz--Gilbert equation using analytical theory and computer simulations. Precession and nutation resonance peaks are identified, and it is demonstrated that the precession frequencies are reduced by the spin inertia, while the lifetime of the excitations is enhanced. The interplay between precession and nutation is found to be the most prominent in antiferromagnets, where the timescale of the exchange-driven sublattice dynamics is comparable to inertial relaxation times. Consequently, antiferromagnetic resonance techniques should be better suited for the search for intrinsical inertial spin dynamics on ultrafast timescales than ferromagnetic resonance.
反铁磁共振中的章动
比较了铁磁系统、反铁磁系统和铁磁系统的惯性自旋动力学效应。在惯性朗道—Lifshitz—吉尔伯特方程的框架内,利用解析理论和计算机模拟计算了对振荡外磁场的线性响应。识别了进动和章动共振峰,并证明了自旋惯量降低了进动频率,同时提高了激励的寿命。在反铁磁体中,发现进动和章动之间的相互作用最为突出,其中交换驱动的亚晶格动力学的时间尺度与惯性弛豫时间相当。因此,反铁磁共振技术应该比铁磁共振技术更适合于在超快时间尺度上寻找本征惯性自旋动力学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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