Triangular solutions to a Riemann-Hilbert problem from superelliptic curves
Abstract: We give fundamental solutions of arbitrarily sized matrix Fuchsian linear systems, in the case where the coefficients $B{(i)}$ of the systems are matrix solutions of the Schlesinger system that are upper triangular, and whose eigenvalues follow an arithmetic progression of a rational difference. The values on the superdiagonals of the matrices $B{(i)}$ are given by contour integrals of meromorphic differentials defined on Riemann surfaces obtained by compactification of superelliptic curves.
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