Magnetic ground states and the conformal class of a surface

Abstract

On a closed, orientable Riemannian surface g of arbitrary genus g≥ 1 and Riemannian metric h we study the magnetic Laplacian with magnetic potential given by a harmonic 1-form A. Its lowest eigenvalue (magnetic ground state energy) is positive, unless A represents an integral cohomology class. We isolate a countable set of ground state energies which we call ground state spectrum of the metric h. The main result of the paper is to show that the ground state spectrum determines the volume and the conformal class of the metric h. In particular, hyperbolic metrics are distinguished by their ground state spectrum. We also compute the magnetic spectrum of flat tori and introduce some magnetic spectral invariants of (g,h) which are conformal by definition and involve the geometry of what we call the Jacobian torus of (g,h) (in Algebraic Geometry, the Jacobian variety of a Riemann surface).

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