Background Geometry in Gauge Gravitation Theory

Abstract

Dirac fermion fields are responsible for spontaneous symmetry breaking in gauge gravitation theory because the spin structure associated with a tetrad field is not preserved under general covariant transformations. Two solutions of this problem can be suggested. (i) There exists the universal spin structure S X such that any spin structure Sh X associated with a tetrad field h is a subbundle of the bundle S X. In this model, gravitational fields correspond to different tetrad (or metric) fields. (ii) A background tetrad field h and the associated spin structure Sh are fixed, while gravitational fields are identified with additional tensor fields q describing deviations ha=q ha of h. One can think of h as being effective tetrad fields. We show that there exist gauge transformations which keep the background tetrad field h and act on the effective fields by the general covariant transformation law. We come to Logunov's Relativistic Theory of Gravity generalized to dynamic connections and fermion fields.

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