SELF-ADJOINTNESS OF MAGNETIC LAPLACIANS ON TRIANGULATIONS
Abstract
The notions of magnetic difference operator defined on weighted graphs or magnetic exterior derivative are discrete analogues of the notion
of covariant derivative on sections of a fibre bundle and its extension on differential forms. In this paper, we extend this notion to certain 2-simplicial complexes called triangulations, in a manner compatible with changes of gauge. Then we study the magnetic Gauss-Bonnet operator naturally defined in this context and introduce the geometric hypothesis of $\chi-$completeness which ensures the essential self-adjointness of this operator. This gives also the essential self-adjointness of the magnetic Laplacian on triangulations. Finally we introduce an hypothesis of bounded curvature for the magnetic potential which permits to characterize the domain of the self-adjoint extension.
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