Evaporation of the pancake-vortex lattice in weakly-coupled layered
  superconductors

A. Alastuey; A. Buzdin; A. E. Koshelev; A. E. Koshelev; A. Houghton; A. K. Nguyen; A. Schilling; D. Reefman; D. T. Fuchs; E. H. Brandt; E. Zeldov; G. Blatter; G. Blatter; G. Blatter; G. I. Menon; H. Nordborg; J. Hu; J. M. Caillol; J. M. Kosterlitz; J. R. Clem; L. N. Bulaevskii; M. J. W. Dodgson; M. J. W. Dodgson; M. V. Feigelman; P. Olsson; R. Šášik; S. L. Lee; S. N. Artemenko; S. Ryu; S. Sengupta; V. B. Geshkenbein; V. L. Berezinskii; X. Hu

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Evaporation of the pancake-vortex lattice in weakly-coupled layered superconductors

Authors: A. Alastuey
A. Buzdin
A. E. Koshelev
A. E. Koshelev
A. Houghton
A. K. Nguyen
A. Schilling
D. Reefman
D. T. Fuchs
E. H. Brandt
E. Zeldov
G. Blatter
G. Blatter
G. Blatter
G. I. Menon
H. Nordborg
J. Hu
J. M. Caillol
J. M. Kosterlitz
J. R. Clem
L. N. Bulaevskii
M. J. W. Dodgson
M. J. W. Dodgson
M. V. Feigelman
P. Olsson
R. Šášik
S. L. Lee
S. N. Artemenko
S. Ryu
S. Sengupta
V. B. Geshkenbein
V. L. Berezinskii
X. Hu
Publication date: 26 November 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We calculate the melting line of the pancake-vortex system in a layered superconductor, interpolating between two-dimensional (2D) melting at high fields and the zero-field limit of single-stack evaporation. Long-range interactions between pancake vortices in different layers permit a mean-field approach, the ``substrate model'', where each 2D crystal fluctuates in a substrate potential due to the vortices in other layers. We find the thermal stability limit of the 3D solid, and compare the free energy to a 2D liquid to determine the first-order melting transition and its jump in entropy.Comment: 4 pages, RevTeX, two postscript figures incorporated using eps

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