Random walk models and probabilistic techniques for inhomogeneous polymer chains

Details Random walk models and probabilistic techniques for inhomogeneous polymer chains Random walk models and probabilistic techniques for inhomogeneous polymer chains

2005-11-22

arxiv.org/abs/math/0511561v2

Mathematics

Probability

Ph.D. Thesis, 174 pages. A misprint from the first pages has been corrected with respect to the "old" version

Scientific paper

Modeling of polymer chains has received a lot of attention in mathematics. In fact, probabilistic models that naturally arise in statistical mechanics have been widely studied by mathematicians for the very challenging and novel problems that they pose. The physical situation that we consider in this thesis is that of a polymer in the proximity of an interface between two selective solvents, in the case when the interaction of the monomers with the solvents and the interface may vary from monomer to monomer (inhomogeneous polymer). In interesting cases thee is a phase transition between a state in which the polymer sticks very close to the interface (localized regime) and a state in which it wanders away from it (delocalized regime). The mechanism underlying such a transition is an energy/entropy competition. Our task has been to study random walk models of polymer chains with the purpose of understanding this competition in a deep and quantitative way. Despite the fact that the definition of these models is extremely elementary, their analysis is not simple at all, and several interesting questions are still open. In this Ph.D. thesis we present new results that answer some of these questions. The analysis performed has required the application of a wide range of techniques, including large deviations, concentration inequalities, renewal theory, fluctuation theory for random walks. A numerical and statistical study has been performed too. Finally we prove a local limit theorem for random walks conditioned to stay positive.

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