A Solvable Model for Homopolymers and the Critical Phenomena

Abstract

We consider a model for the distribution of a long homopolymer with a zero-range potential at the origin in R3. The distribution can be obtained as a limit of Gibbs distributions corresponding to properly normalized potentials concentrated in small neighborhoods of the origin as the size of the neighborhoods tends to zero. The distribution depends on the length T of the polymer and a parameter γ that corresponds, roughly speaking, to the difference between the inverse temperature in our model and the critical value of the inverse temperature. At the critical point γcr = 0 the transition occurs from the globular phase (positive recurrent behavior of the polymer, γ > 0) to the extended phase (Brownian type behavior, γ < 0). The main result of the paper is a detailed analysis of the behavior of the polymer when γ is near γcr. Our approach is based on analyzing the semigroups generated by the self-adjoint extensions Lγ of the Laplacian on C0∞(R3 \0\) parametrized by γ, which are related to the distribution of the polymer. The main technical tool of the paper is the explicit formula for the resolvent of the operator Lγ.