Laughlin liquid - Wigner solid transition at high density in wide
  quantum wells

F. C. Zhang; G. Ortiz; H. Buhmann; H. Buhmann; H. W. Jiang; M. Shayegan; P. K. Lam; P. M. Platzman; P. M. Platzman; R. L. Willett; R. Price; Rodney Price; S. Das Sarma; S. He; S. He; T. Ando; V. J. Goldman; X. Zhu; Xuejun Zhu; Y. W. Suen

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Laughlin liquid - Wigner solid transition at high density in wide quantum wells

Authors: F. C. Zhang
G. Ortiz
H. Buhmann
H. Buhmann
H. W. Jiang
M. Shayegan
P. K. Lam
P. M. Platzman
P. M. Platzman
R. L. Willett
R. Price
Rodney Price
S. Das Sarma
S. He
S. He
T. Ando
V. J. Goldman
X. Zhu
Xuejun Zhu
Y. W. Suen
Publication date: 1 January 1994
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Assuming that the phase transition between the Wigner solid and the Laughlin liquid is first-order, we compare ground-state energies to find features of the phase diagram at fixed

\nu

. Rather than use the Coulomb interaction, we calculate the effective interaction in a square quantum well, and fit the results to a model interaction with length parameter

\lambda

roughly proportional to the width of the well. We find a transition to the Wigner solid phase at high density in very wide wells, driven by the softening of the interaction at short distances, as well as the more well-known transition to the Wigner solid at low density, driven by Landau-level mixing.Comment: RevTeX 3.0, 3 Postscript figures appended in uuencoded forma

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