Eigenvalue versus perimeter in a shape theorem for self-interacting random walks

We study paths of time-length t of a continuous-time random walk on Z2 subject to self-interaction that depends on the geometry of the walk range and a collection of random, uniformly positive and finite edge weights. The interaction enters through a Gibbs weight at inverse temperature .; the .energy. is the total sum of the edge weights for edges on the outer boundary of the range. For edge weights sampled from a translation-invariant, ergodic law, we prove that the range boundary condensates around an asymptotic shape in the limit t.. followed by .... The limit shape is a minimizer (unique, modulo translates) of the sum of the principal harmonic frequency of the domain and the perimeter with respect to the first-passage percolation norm derived from (the law of) the edge weights. A dense subset of all norms in R2, and thus a large variety of shapes, arise from the class of weight distributions to which our proofs apply.