Nature of Resistive Transitions in Josephson Networks in a Magnetic Field

We study the depinning of the vortices induced in a Josephson network by a magnetic field. A vortex crystal can be pinned when it can be made commensurate with the network potential by rotation; this can occur only when the number of vortices per unit cell {ital p}/{ital q} is constructed from speci...

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Veröffentlicht in:	Physical Review Letters 1997-09, Vol.79 (13), p.2534-2537
Hauptverfasser:	Straley, Joseph P., Morozov, Alexander Y., Kolomeisky, Eugene B.
Format:	Artikel
Sprache:	eng
Schlagworte:	CRYSTAL LATTICES JOSEPHSON JUNCTIONS KOSTERLITZ-THOULESS THEORY NETWORK ANALYSIS PHYSICS SUPERCONDUCTIVITY VORTICES
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container_end_page	2537
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container_title	Physical Review Letters
container_volume	79
creator	Straley, Joseph P. Morozov, Alexander Y. Kolomeisky, Eugene B.
description	We study the depinning of the vortices induced in a Josephson network by a magnetic field. A vortex crystal can be pinned when it can be made commensurate with the network potential by rotation; this can occur only when the number of vortices per unit cell {ital p}/{ital q} is constructed from special values of the integers {ital p} and {ital q}. For these cases the transition can be of roughening type; however, melting of the vortex crystal is an important competing process that changes the nature of the transition for q{lt}16 (square lattice) or q{lt}12 (hexagonal lattice). For the other values of {ital p} and {ital q} there can be a spontaneous deformation of the vortex crystal to a commensurable structure if the network potential is sufficiently large. {copyright} {ital 1997} {ital The American Physical Society}
doi_str_mv	10.1103/PhysRevLett.79.2534
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A vortex crystal can be pinned when it can be made commensurate with the network potential by rotation; this can occur only when the number of vortices per unit cell {ital p}/{ital q} is constructed from special values of the integers {ital p} and {ital q}. For these cases the transition can be of roughening type; however, melting of the vortex crystal is an important competing process that changes the nature of the transition for q{lt}16 (square lattice) or q{lt}12 (hexagonal lattice). 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subjects	CRYSTAL LATTICES JOSEPHSON JUNCTIONS KOSTERLITZ-THOULESS THEORY NETWORK ANALYSIS PHYSICS SUPERCONDUCTIVITY VORTICES
title	Nature of Resistive Transitions in Josephson Networks in a Magnetic Field
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