On linear systems and tau functions associated with Lame's equation and Painleve's equation VI

Abstract

Painleve's transcendental differential equation PVI may be expressed as the consistency condition for a pair of linear differential equations with 2 by 2 matrix coefficients with rational entries. By a construction due to Tracy and Widom, this linear system is associated with certain kernels which give trace class operators on Hilbert space. This paper expresses such operators in terms of the Hankel operators φ of linear systems which are realised in terms of the Laurent coefficients of the solutions of the differential equations. Let P(t infty):L2(0, ∞) L2(t, ∞) be the orthogonal projection. For such, the Fredholm determinant τ (t)=det (I-P(t, ∞)φ) defines the tau function, which is here expressed in terms of the solutions of a matrix Gelfand--Levitan equation. For suitable paramters, solutions of the hypergeometric equation give a linear system with similar properties. For meromorphic transfer functions φ that have poles on an arithmetic progression, the corresponding Hankel operator has a simple form with respect to an exponential basis in L2(0, ∞); so τ (t) can be expressed in terms of finite determinants. This applies to elliptic functions of the second kind, such as satisfy Lame's equation with =1.