Locally gauge-invariant spin response of super(3)He - B films with Majorana surface states

A locally gauge-invariant theory of the spin response of a thin film of super(3)He - B film is given that describes fluctuation effects arising from the coupled dynamics of the superconducting order parameter (the collective mode) and in-gap Majorana surface states. In contrast to a mean-field calcu...

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Veröffentlicht in:	Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2015-04, Vol.91 (13), p.np-np
Hauptverfasser:	Taylor, Edward, Berlinsky, A John, Kallin, Catherine
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Sprache:	eng
Schlagworte:	Condensed matter Damping Fluctuation Mathematical analysis Order parameters Superconductivity Surface chemistry Thin films
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container_title	Physical review. B, Condensed matter and materials physics
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creator	Taylor, Edward Berlinsky, A John Kallin, Catherine
description	A locally gauge-invariant theory of the spin response of a thin film of super(3)He - B film is given that describes fluctuation effects arising from the coupled dynamics of the superconducting order parameter (the collective mode) and in-gap Majorana surface states. In contrast to a mean-field calculation of the spin response, which predicts a nonzero imaginary longitudinal spin susceptibility at frequencies inside the bulk gap due to absorption from the Majorana states, our gauge-invariant theory shows that this response is strongly suppressed above the collective mode frequency and vanishes if dipole-dipole interactions are neglected. In the presence of dipole-dipole interactions, in sufficiently thin films, and at ultralow temperatures, the Majorana states lead to a distinctive magnetic-field- and temperature-dependent damping of the collective mode, a feature that may be observable in longitudinal NMR experiments.
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subjects	Condensed matter Damping Fluctuation Mathematical analysis Order parameters Superconductivity Surface chemistry Thin films
title	Locally gauge-invariant spin response of super(3)He - B films with Majorana surface states
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