Unbinding of mutually avoiding random walks and two dimensional quantum gravity
摘要
We analyze the unbinding transition for a two dimensional lattice polymer in which the constituent strands are mutually avoiding random walks. At low temperatures the strands are bound and form a single self-avoiding walk. We show that unbinding in this model is a strong first order transition. The entropic exponents associated to denaturated loops and end-segments distributions show sharp differences at the transition point and in the high temperature phase. Their values can be deduced from some exact arguments relying on a conformal mapping of copolymer networks into a fluctuating geometry, i.e. in the presence of quantum gravity. An excellent agreement between analytical and numerical estimates is observed for all cases analized.
引用
@article{arxiv.cond-mat/0405183,
title = {Unbinding of mutually avoiding random walks and two dimensional quantum gravity},
author = {Enrico Carlon and Marco Baiesi},
journal= {arXiv preprint arXiv:cond-mat/0405183},
year = {2008}
}
备注
9 pages, 11 figures, revtex4