Reentrant Melting of Soliton Lattice Phase in Bilayer Quantum Hall
  System

Al. B. Zamolochikov; B. H. Lee; C. Ahn; C. B. Hanna; C. Rim; J. P. Eisenstein; J. Yeo; K. Moon; K. Moon; K. Moon; K. Moon; K. Yang; K. Yang; L. Radzihovsky; M. Abolfath; M. E. Fisher; N. Read; Per Bak; S. N. Coopersmith; S. Park; S. Q. Murphy; V. L. Pokrovsky; Y. W. Suen

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Reentrant Melting of Soliton Lattice Phase in Bilayer Quantum Hall System

Authors: Al. B. Zamolochikov
B. H. Lee
C. Ahn
C. B. Hanna
C. Rim
J. P. Eisenstein
J. Yeo
K. Moon
K. Moon
K. Moon
K. Moon
K. Yang
K. Yang
L. Radzihovsky
M. Abolfath
M. E. Fisher
N. Read
Per Bak
S. N. Coopersmith
S. Park
S. Q. Murphy
V. L. Pokrovsky
Y. W. Suen
Publication date: 25 March 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

At large parallel magnetic field

B_\parallel

, the ground state of bilayer quantum Hall system forms uniform soliton lattice phase. The soliton lattice will melt due to the proliferation of unbound dislocations at certain finite temperature leading to the Kosterlitz-Thouless (KT) melting. We calculate the KT phase boundary by numerically solving the newly developed set of Bethe ansatz equations, which fully take into account the thermal fluctuations of soliton walls. We predict that within certain ranges of

B_\parallel

, the soliton lattice will melt at

T_{\rm KT}

. Interestingly enough, as temperature decreases, it melts at certain temperature lower than

T_{\rm KT}

exhibiting the reentrant behaviour of the soliton liquid phase.Comment: 11 pages, 2 figure

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