Model of the Longitudinal Spin Seebeck Coefficient of InSb in a Magnetic Field

Model of the Longitudinal Spin Seebeck Coefficient of InSb in a Magnetic Field

We develop a simple theory for the longitudinal spin Seebeck effect in n-doped InSb in an external magnetic field. We consider spin-\(1/2\) electrons in the conduction band of InSb with a temperature gradient parallel to the applied magnetic field. In the absence of spin-orbit interactions, a Boltzm...

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Veröffentlicht in:arXiv.org 2014-09
Hauptverfasser: Pike, N A, Stroud, D
Format: Artikel
Sprache:eng
Schlagworte:
Boltzmann transport equation
Conduction bands
Electron spin
Indium antimonide
Intermetallic compounds
Magnetic fields
Magnetism
Physics - Mesoscale and Nanoscale Physics
Seebeck effect
Spin-orbit interactions
Spintronics
Temperature gradients
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Zusammenfassung:We develop a simple theory for the longitudinal spin Seebeck effect in n-doped InSb in an external magnetic field. We consider spin-\(1/2\) electrons in the conduction band of InSb with a temperature gradient parallel to the applied magnetic field. In the absence of spin-orbit interactions, a Boltzmann equation approach leads to a spin current parallel to the field and proportional to the temperature gradient. The calculated longitudinal spin Seebeck coefficients oscillates as a function of magnetic field B; the peak positions are approximately periodic in 1/B. The oscillations arise when the Fermi energy crosses the bottom of a Landau band.
ISSN:2331-8422
DOI:10.48550/arxiv.1409.5805