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Resonant Nonlinear Damping of Quantized Spin Waves in Ferromagnetic Nanowires

Mesoscale and Nanoscale Physics 2013-05-29 v2 Materials Science
Authors: Carl Boone , Jordan Katine , Jeff Childress , Vasil Tiberkevich , Andrei Slavin , Jian Zhu , Xiao Cheng , Ilya Krivorotov
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Abstract

We use spin torque ferromagnetic resonance to measure the spectral properties of dipole-exchange spin waves in permalloy nanowires. Our measurements reveal that geometric confinement has a profound effect on the damping of spin waves in the nanowire geometry. The damping parameter of the lowest-energy quantized spin wave mode depends on applied magnetic field in a resonant way and exhibits a maximum at a field that increases with decreasing nanowire width. This enhancement of damping originates from a nonlinear resonant three-magnon confluence process allowed at a particular bias field value determined by quantization of the spin wave spectrum in the nanowire geometry.

Keywords

spin waves magnetic resonance nanomechanical resonators

Cite

@article{arxiv.0905.4699,
  title  = {Resonant Nonlinear Damping of Quantized Spin Waves in Ferromagnetic Nanowires},
  author = {Carl Boone and Jordan Katine and Jeff Childress and Vasil Tiberkevich and Andrei Slavin and Jian Zhu and Xiao Cheng and Ilya Krivorotov},
  journal= {arXiv preprint arXiv:0905.4699},
  year   = {2013}
}

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