https://doi.org/10.1140/epjb/e2005-00241-1
Two-dimensional wetting with binary disorder: a numerical study of the loop statistics
Service de Physique Théorique, CEA/DSM/SPhT,
Unité de recherche associée au CNRS,
91191 Gif-sur-Yvette Cedex, France
Corresponding author: a garel@spht.saclay.cea.fr
Received:
14
March
2005
Published online:
8
August
2005
We numerically study the wetting (adsorption) transition of a polymer chain on a disordered substrate in 1+1 dimension. Following the Poland-Scheraga model of DNA denaturation, we use a Fixman-Freire scheme for the entropy of loops. This allows us to consider chain lengths of order to 106, with 104 disorder realizations. Our study is based on the statistics of loops between two contacts with the substrate, from which we define Binder-like parameters: their crossings for various sizes N allow a precise determination of the critical temperature, and their finite size properties yields a crossover exponent . We then analyse at criticality the distribution of loop length l in both regimes and , as well as the finite-size properties of the contact density and energy. Our conclusion is that the critical exponents for the thermodynamics are the same as those of the pure case, except for strong logarithmic corrections to scaling. The presence of these logarithmic corrections in the thermodynamics is related to a disorder-dependent logarithmic singularity that appears in the critical loop distribution in the rescaled variable as .
PACS: 64.60.-i – General studies of phase transitions / 64.70.-p – Specific phase transitions / 05.40.Fb – Random walks and Levy flights
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2005