Topologically Nontrivial Sectors of the Maxwell Field Theory on Algebraic Curves
Abstract
In this paper the Maxwell field theory is considered on the Zn symmetric algebraic curves. As a first result, a large family of nondegenerate metrics is derived for general curves. This allows to treat many differential equations arising in quantum mechanics and field theory on Riemann surfaces as differential equations on the complex sphere. The examples of the scalar fields and of an electron immersed in a constant magnetic field will be briefly investigated. Finally, the case of the Maxwell equations on curves with Zn group of automorphisms is studied in details. These curves are particularly important because they cover the entire moduli space spanned by the Riemann surfaces of genus g 2. The solutions of these equations corresponding to nontrivial values of the first Chern class are explicitly constructed.
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