Spin wave amplification driven by heat flow: the role of damping and exchange interaction

A. Delin; H. Fangohr; L. Bergqvist; M. Franchin; S. Borlenghi

arxiv: 1205.5650 · v2 · pith:SU5CFMEQnew · submitted 2012-05-25 · ❄️ cond-mat.mes-hall

Spin wave amplification driven by heat flow: the role of damping and exchange interaction

S. Borlenghi , M. Franchin , H. Fangohr , L. Bergqvist , A. Delin This is my paper

classification ❄️ cond-mat.mes-hall

keywords amplificationdampingflowheatrolesimulationsspin-waveaccessible

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In this article we report on micromagnetic simulations performed on a permalloy nanostructure in presence of a uniform thermal gradient. Our numerical simulations show that heat flow is an effective mean to compensate the damping, and that the gradients at which spin-wave amplification is observed are experimentally accessible. In particular, we have studied the role of the Gilbert damping parameter on spin-wave amplification.

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Spin wave amplification driven by heat flow: the role of damping and exchange interaction

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