We consider the properties of the space-time geometry in the presence of gravitating spinless particles in (2 + 1) dimensions. By using 't Hooft representation of three-dimensional space-time, we give a description of the decays of gravitating particles and derive the associated kinematic relations. The effects of gravity on the structure of the energy-momentum conservation law are discussed. We show that, for a set of spinless particles, the time evolution of the momenta can be described by means of a generalized space-time kinematics based on a particular representation of the braid group. © 1995.
Franzosi, R., Guadagnini, E. (1995). Particle decays and space-time kinematics in (2+1) gravity. NUCLEAR PHYSICS. B, 450(1-2), 327-354 [10.1016/0550-3213(95)00323-K].
Particle decays and space-time kinematics in (2+1) gravity
Franzosi, R.;
1995-01-01
Abstract
We consider the properties of the space-time geometry in the presence of gravitating spinless particles in (2 + 1) dimensions. By using 't Hooft representation of three-dimensional space-time, we give a description of the decays of gravitating particles and derive the associated kinematic relations. The effects of gravity on the structure of the energy-momentum conservation law are discussed. We show that, for a set of spinless particles, the time evolution of the momenta can be described by means of a generalized space-time kinematics based on a particular representation of the braid group. © 1995.
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https://hdl.handle.net/11365/1231404