Vortex Entanglement and Broken Symmetry

A. Sudbø; Andreas Schönenberger; C. Carraro; D. R. Nelson; E. Frey; G. Blatter; Gianni Blatter; M. Feigel'man; M. Feigel'man; N. Wilkin; P. Wagenleithner; R. Labusch; S. P. Obukhov; Vadim Geshkenbein

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Vortex Entanglement and Broken Symmetry

Authors: A. Sudbø
Andreas Schönenberger
C. Carraro
D. R. Nelson
E. Frey
G. Blatter
Gianni Blatter
M. Feigel'man
M. Feigel'man
N. Wilkin
P. Wagenleithner
R. Labusch
S. P. Obukhov
Vadim Geshkenbein
Publication date: 18 April 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Based on the London approximation, we investigate numerically the stability of the elementary configurations of entanglement, the twisted-pair and the twisted-triplet, in the vortex-lattice and -liquid phases. We find that, except for the dilute limit, the twisted-pair is unstable and hence irrelevant in the discussion of entanglement. In the lattice phase the twisted-triplet constitutes a metastable, confined configuration of high energy. Loss of lattice symmetry upon melting leads to deconfinement and the twisted-triplet turns into a low-energy helical configuration.Comment: 4 pages, RevTex, 2 figures on reques

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