Automorphic Hamiltonians, Epstein Zeta Functions, and Kronecker Limit Formulas

Abstract

First, we recount a history of how certain methods using natural self-adjoint operators have, thus far, failed to prove the Riemann Hypothesis. In Section 2, we set the analytical context necessary to have genuine proofs in later sections, rather than attractive heuristics. In Section 3, we recall the utility of designed pseudo-Laplacians by reproving meromorphic continuation of certain Eisenstein series and proving a spacing result for zeros of ζk(s) for k a complex quadratic field with negative determinant. In Section 4, we construct an automorphic Hamiltonian which has purely discrete spectrum on L2(SLr(Z) SLr (R)/SO(r, R)), identify its ground state, and show how it can characterize a nuclear Fr\'echet automorphic Schwartz space.