Conformal Mappings and Dispersionless Toda hierarchy II: General String Equations

Abstract

In this article, we classify the solutions of the dispersionless Toda hierarchy into degenerate and non-degenerate cases. We show that every non-degenerate solution is determined by a function H(z1,z2) of two variables. We interpret these non-degenerate solutions as defining evolutions on the space D of pairs of conformal mappings (g,f), where g is a univalent function on the exterior of the unit disc, f is a univalent function on the unit disc, normalized such that g(∞)=∞, f(0)=0 and f'(0)g'(∞)=1. For each solution, we show how to define the natural time variables tn, n∈, as complex coordinates on the space D. We also find explicit formulas for the tau function of the dispersionless Toda hierarchy in terms of H(z1, z2). Imposing some conditions on the function H(z1, z2), we show that the dispersionless Toda flows can be naturally restricted to the subspace of D defined by f(w)=1/g(1/w). This recovers the result of Zabrodin.