An hbar-expansion of the Toda hierarchy: a recursive construction of solutions

TL;DR

This paper presents a recursive method to construct solutions of the ar-dependent Toda hierarchy using a Riemann-Hilbert problem and exponential dressing operators, leading to an ar-expansion of the tau function.

Contribution

It introduces a recursive construction of solutions for the ar Toda hierarchy via ar-expansions of dressing operators and wave functions, connecting to the tau function.

Findings

Coefficients satisfy recursion relations.

Wave functions have WKB form.

Provides ar-expansion of tau function.

Abstract

A construction of general solutions of the \hbar-dependent Toda hierarchy is presented. The construction is based on a Riemann-Hilbert problem for the pairs (L,M) and (\bar L,\bar M) of Lax and Orlov-Schulman operators. This Riemann-Hilbert problem is translated to the language of the dressing operators W and \bar W. The dressing operators are set in an exponential form as W = e^{X/\hbar} and \bar W = e^{\phi/\hbar}e^{\bar X/\hbar}, and the auxiliary operators X,\bar X and the function \phi are assumed to have \hbar-expansions X = X_0 + \hbar X_1 + ..., \bar X = \bar X_0 + \hbar\bar X_1 + ... and \phi = \phi_0 + \hbar\phi_1 + .... The coefficients of these expansions turn out to satisfy a set of recursion relations. X,\bar X and \phi are recursively determined by these relations. Moreover, the associated wave functions are shown to have the WKB form \Psi = e^{S/\hbar} and \bar\Psi = e^{\bar S/\hbar}, which leads to an \hbar-expansion of the logarithm of the tau function.