Thermalization of electron-positron plasma with quantum degeneracy

Publication date: Available online 25 October 2018Source: Physics Letters AAuthor(s): M.A. Prakapenia, I.A. Siutsou, G.V. VereshchaginAbstractThe non-equilibrium electron-positron-photon plasma thermalization process is studied using relativistic Boltzmann solver, taking into account quantum corrections both in non-relativistic and relativistic cases. Collision integrals are computed from exact QED matrix elements for all binary and triple interactions in the plasma. It is shown that in non-relativistic case (temperatures kBT≤0.3mec2) binary interaction rates dominate over triple ones, resulting in establishment of the kinetic equilibrium prior to final relaxation towards the thermal equilibrium, in agreement with the previous studies. On the contrary, in relativistic case (final temperatures kBT≥0.3mec2) triple interaction rates are fast enough to prevent the establishment of kinetic equilibrium. It is shown that thermalization process strongly depends on quantum degeneracy in initial state, but does not depend on plasma composition.
Source: Physics Letters A - Category: Physics Source Type: research
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