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Schrödinger connection with selfdual nonmetricity vector in 2+1 dimensions

Silke Klemm, Lucrezia Ravera

2021Physics Letters B21 citationsDOIOpen Access PDF

Abstract

We present a three-dimensional metric affine theory of gravity whose field equations lead to a connection introduced by Schrödinger many decades ago. Although involving nonmetricity, the Schrödinger connection preserves the length of vectors under parallel transport, and appears thus to be more physical than the one proposed by Weyl. By considering solutions with constant scalar curvature, we obtain a self-duality relation for the nonmetricity vector which implies a Proca equation that may also be interpreted in terms of inhomogeneous Maxwell equations emerging from affine geometry.

Topics & Concepts

Connection (principal bundle)Affine connectionCurvatureScalar (mathematics)Mathematical physicsMetric (unit)Duality (order theory)Affine transformationMathematicsPhysicsVector fieldPure mathematicsGeometryEconomicsOperations managementCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsAdvanced Differential Geometry Research
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