Phase transitions as topology changes in configuration space: an exact
  result

A. Cavagna; C. N. Yang; D. H. E. Gross; E. G. D. Cohen; E. G. D. Cohen; L. Angelani; L. Caiani; L. Casetti; L. Casetti; Lapo Casetti; M. Antoni; M. Cerruti-Sola; Marco Pettini; R. Franzosi; R. Franzosi

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Phase transitions as topology changes in configuration space: an exact result

Authors: A. Cavagna
C. N. Yang
D. H. E. Gross
E. G. D. Cohen
E. G. D. Cohen
L. Angelani
L. Caiani
L. Casetti
L. Casetti
Lapo Casetti
M. Antoni
M. Cerruti-Sola
Marco Pettini
R. Franzosi
R. Franzosi
Publication date: 14 April 2001
Publisher: 'American Physical Society (APS)'
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Abstract

The phase transition in the mean-field XY model is shown analytically to be related to a topological change in its configuration space. Such a topology change is completely described by means of Morse theory allowing a computation of the Euler characteristic--of suitable submanifolds of configuration space--which shows a sharp discontinuity at the phase transition point, also at finite N. The present analytic result provides, with previous work, a new key to a possible connection of topological changes in configuration space as the origin of phase transitions in a variety of systems.Comment: REVTeX file, 5 pages, 1 PostScript figur

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info:doi/10.1103%2Fphysreve.65...

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