Resolvent Trace Formula and Determinants of n Laplacians on Orbifold Riemann Surfaces

Abstract

For n a nonnegative integer, we consider the n-Laplacian n acting on the space of n-differentials on a confinite Riemann surface X which has ramification points. The trace formula for the resolvent kernel is developed along the line \`a la Selberg. Using the trace formula, we compute the regularized determinant of n+s(s+2n-1), from which we deduce the regularized determinant of n, denoted by \!'n. Taking into account the contribution from the absolutely continuous spectrum, \!'n is equal to a constant Cn times Z(n) when n≥ 2. Here Z(s) is the Selberg zeta function of X. When n=0 or n=1, Z(n) is replaced by the leading coefficient of the Taylor expansion of Z(s) around s=0 and s=1 respectively. The constants Cn are calculated explicitly. They depend on the genus, the number of cusps, as well as the ramification indices, but is independent of the moduli parameters.