Dirac equation in metric-affine gravitation theories and superpotentials |
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Authors: | Giovanni Giachetta Luigi Mangiarotti |
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Affiliation: | (1) Dipartimento di Matematica e Fisica, Universitá di Camerino, 62032 Camerino (MC), Italy |
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Abstract: | We consider a metric-affine gravitational framework in which the dynamical fields are the spin structures, the general linear connections, and the Dirac fermion fields. Using a spin structure and a linear connection on the world manifold, we construct a principal connection on the spinor bundle. By applying general ideas concerning the conservation laws in the Lagrangian approach to field theory, we examine the corresponding conserved currents. The main result is that the currents associated with infinitesimal vertical (internal) transformations of the covariance group are shown to vanish identically. It follows that to every vector field on the world manifold there corresponds a well-defined current, the stress-energymomentum of the fields. It turns out that the fermion fields do not contribute at all to the superpotential terms. Actually the expression we get for the superpotential generalizes the well-known expression obtained by Komar. |
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