Freezing transition of the vortex liquid in anisotropic superconductors

A. G. Rojo; A. Lindemann; A. Schilling; C. A. Balseiro; D. J. C. Jackson; E. Brézin; E. Zeldov; Gautam I. Menon; George W. Crabtree; Gianni Blatter; Gianni Blatter; H. Safar; Igor F. Herbut; Jean-Pierre Hansen; L. I. Glazman; L. L. Daemen; M. V. Feigel’man; P. S. Cornaglia; R. Cubitt; S. L. Lee; Surajit Sengupta; T. Sasagawa; T. V. Ramakrishnan; T. V. Ramakrishnan

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Freezing transition of the vortex liquid in anisotropic superconductors

Authors: A. G. Rojo
A. Lindemann
A. Schilling
C. A. Balseiro
D. J. C. Jackson
E. Brézin
E. Zeldov
Gautam I. Menon
George W. Crabtree
Gianni Blatter
Gianni Blatter
H. Safar
Igor F. Herbut
Jean-Pierre Hansen
L. I. Glazman
L. L. Daemen
M. V. Feigel’man
P. S. Cornaglia
R. Cubitt
S. L. Lee
Surajit Sengupta
T. Sasagawa
T. V. Ramakrishnan
T. V. Ramakrishnan
Publication date: 13 April 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We study the solid-liquid transition of a model of pancake vortices in laminar superconductors using a density functional theory of freezing. The physical properties of the system along the melting line are discussed in detail. We show that there is a very good agreement with experimental data in the shape and position of the first order transition in the phase diagram and in the magnitude and temperature dependence of the magnetic induction jump at the transition. We analyze the validity of the Lindemann melting criterion and the Hansen-Verlet freezing criterion. Both criteria are shown to be good to predict the phase diagram in the region where a first order phase transition is experimentally observed.Comment: 9 pages, 10 figure

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