Solutions of the Sinh-Gordon Equation of Spectral Genus Two and constrained Willmore Tori I

Abstract

We investigate solutions of the elliptic sinh-Gordon equation of spectral genus g<3. These solutions are parametrized by complex matrix-valued polynomials called potentials. On the space of these potentials there act two commuting flows. The orbits of these flows are called Polynomial Killing fields and are double periodic. The eigenvalues of these matrix-valued polynomials are preserved along the flows and determine the lattice of periods. We investigate the level sets of these eigenvalues, which are called isospectral sets, and the dependence of the period lattice on the isospectral sets. The limiting cases of spectral genus one and zero are included. Moreover, these limiting cases are used to construct on every elliptic curve three conformal maps to R4 which are constrained Willmore. Finally, the Willmore functional is calculated in dependence of the conformal class.