New Journal of Physics (Jan 2016)

Microscopic origin of subthermal magnons and the spin Seebeck effect

  • I Diniz,
  • A T Costa

DOI
https://doi.org/10.1088/1367-2630/18/5/052002
Journal volume & issue
Vol. 18, no. 5
p. 052002

Abstract

Read online

Recent experimental evidence points to low-energy magnons as the primary contributors to the spin Seebeck effect. This spectral dependence is puzzling since it is not observed on other thermocurrents in the same material. Here, we argue that the physical origin of this behavior is the magnon–magnon scattering mediated by phonons, in a process which conserves the number of magnons. To assess the importance and features of this kind of scattering, we derive the effective magnon–phonon interaction from a microscopic model, including band energy, a screened electron–electron interaction and the electron–phonon interaction. Unlike higher order magnon-only scattering, we find that the coupling with phonons induce a scattering which is very small for low-energy (or subthermal ) magnons but increases sharply above a certain energy—rendering magnons above this energy poor spin-current transporters.

Keywords