Order of the phase transition in models of DNA thermal denaturation

A. Campa; B. Simon; D. Cule; D. M. Kroll; D. Poland; D. Poland; J. A. Krumhansl; L. D. Landau; L. van Hove; M. Klaus; M. Klaus; M. M. Nieto; M. Peyrard; Michel Peyrard; Nikos Theodorakopoulos; R. A. Guyer; R. Blanckenberg; R. Blossey; R. Lipowsky; R. M. Wartell; S. W. Englander; T. Dauxois; T. Dauxois; Thierry Dauxois; V. Privman; Y-L Zhang

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Order of the phase transition in models of DNA thermal denaturation

Authors: A. Campa
B. Simon
D. Cule
D. M. Kroll
D. Poland
D. Poland
J. A. Krumhansl
L. D. Landau
L. van Hove
M. Klaus
M. Klaus
M. M. Nieto
M. Peyrard
Michel Peyrard
Nikos Theodorakopoulos
R. A. Guyer
R. Blanckenberg
R. Blossey
R. Lipowsky
R. M. Wartell
S. W. Englander
T. Dauxois
T. Dauxois
Thierry Dauxois
V. Privman
Y-L Zhang
Publication date: 29 April 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We examine the behavior of a model which describes the melting of double-stranded DNA chains. The model, with displacement-dependent stiffness constants and a Morse on-site potential, is analyzed numerically; depending on the stiffness parameter, it is shown to have either (i) a second-order transition with "nu_perpendicular" = - beta = 1, "nu_parallel" = gamma/2 = 2 (characteristic of short range attractive part of the Morse potential) or (ii) a first-order transition with finite melting entropy, discontinuous fraction of bound pairs, divergent correlation lengths, and critical exponents "nu_perpendicular" = - beta = 1/2, "nu_parallel" = gamma/2 = 1.Comment: 4 pages of Latex, including 4 Postscript figures. To be published in Phys. Rev. Let

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