Optically driven spin pumping mediating collective magnetization dynamics in a spin valve structure
Mesoscale and Nanoscale Physics
2018-08-22 v1
Abstract
We demonstrate spin pumping, i.e. the generation of a pure spin current by precessing magnetization, without application of microwave radiation commonly used in spin pumping experiments. We use femtosecond laser pulses to simultaneously launch the magnetization precession in each of two ferromagnetic layers of a Galfenol-based spin valve and monitor the temporal evolution of the magnetizations. The spin currents generated by the precession cause a dynamic coupling of the two layers. This coupling has dissipative character and is especially efficient when the precession frequencies in the two layers are in resonance, where coupled modes with strongly different decay rates are formed.
Cite
@article{arxiv.1805.07669,
title = {Optically driven spin pumping mediating collective magnetization dynamics in a spin valve structure},
author = {A. P. Danilov and A. V. Scherbakov and B. A. Glavin and T. L. Linnik and A. M. Kalashnikova and L. A. Shelukhin and D. P. Pattnaik and A. W. Rushforth and C. J. Love and S. A. Cavill and D. R. Yakovlev and M. Bayer},
journal= {arXiv preprint arXiv:1805.07669},
year = {2018}
}
Comments
5 pages, 3 figures