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Lagrangian approach in spin-oscillations problem

Lagrangian of electronic liquid in magneto-inhomogeneous micro-conductor has been constructed. A corresponding Euler-Lagrange equation has been solved. It was shown that the described system has eigenmodes of spin polarization and total electric current oscillations. The suggested approach permits t...

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Published in:	arXiv.org 2015-01
Main Authors:	Pyshkin, P V, Kopeliovich, A I, Yanovsky, A V
Format:	Article
Language:	English
Subjects:	Conductors Electron spin Euler-Lagrange equation Oscillations Polarization (spin alignment) Spin dynamics
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creator	Pyshkin, P V Kopeliovich, A I Yanovsky, A V
description	Lagrangian of electronic liquid in magneto-inhomogeneous micro-conductor has been constructed. A corresponding Euler-Lagrange equation has been solved. It was shown that the described system has eigenmodes of spin polarization and total electric current oscillations. The suggested approach permits to study the spin dynamics in an open-circuit which contains capacitance and/or inductivity.
doi_str_mv	10.48550/arxiv.1312.4138
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subjects	Conductors Electron spin Euler-Lagrange equation Oscillations Polarization (spin alignment) Spin dynamics
title	Lagrangian approach in spin-oscillations problem
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