Kinetic dynamics of neutral spin particles in a spacetime with torsion

Abstract

A kinetic model for the dynamics of collisionless spin neutral particles in a spacetime with torsion is proposed. The fundamental matter field is the kinetic density f(x,u,s) of particles with four-velocity u and four-spin s. The stress-energy tensor and the spin current of the particles distribution are defined as suitable integral moments of f in the (u,s) variables. By requiring compatibility with the contracted Bianchi identity in Einstein-Cartan theory, we derive a transport equation on the kinetic density f that generalizes the well-known Vlasov equation for spinless particles. The total number of particles in the new model is not conserved. To restore this important property we assume the existence in spacetime of a second species of particles with the same mass and spin magnitude. The Vlasov equation on the kinetic density f of the new particles is derived by requiring that the sum of total numbers of particles of the two species should be conserved.

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