Non-Linear Dynamics of a Magnetic Vortex
Magnetics, IEEE Transactions(2010)
摘要
We have investigated magnetic vortex dynamics in the frequency and time domains using time-resolved Kerr microscopy. A synchronous detection technique allows us to probe a single disk over a large dynamic range (four orders of magnitude in excitation power). Three regimes are identified. At low excitation amplitudes, the gyrotropic motion of the vortex is strongly modified by the presence of point-like defects. As the amplitude increases, the system passes through a depinning transition, above which the gyroptropic dynamics are determined by the magnetostatic potential of the disk. At very high amplitudes, the assumption of a rigid vortex core breaks down and the dynamics are dominated by successive reversals of the vortex core polarity.
更多查看译文
关键词
magnetization dynamics,point-like defects,point defects,frequency domains,gyroptropic dynamics,rigid vortex core,synchronous detection technique,spin dynamics,time-resolved kerr microscopy,kerr magneto-optical effect,magnetic domains,gyrotropic motion,low excitation amplitudes,time resolved spectra,time domains,optical rotation,vortex core polarity,nonlinear dynamics,magnetostatic potential,depinning transition,magnetization reversal,magnetic vortex dynamics,magnetisation reversal,switches,magnetostatics,time domain,dynamic range,magnetic resonance imaging,magnetization,vortex dynamics,non linear dynamics
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要