Solitosynthesis: Cosmological evolution of non-topological solitons
Abstract
The thermal creation, fusion, evaporation, and destruction of non-topological solitons (NTS) after a phase transition in the early universe is considered. By defining and following NTS statistical equilibrium and departures from it, and depending on particle physics parameters, one of three possible scenarios occurs. If reaction rates are high enough, a period of equilibrium occurs and relic abundances are determined by the freeze-out temperature. Equilibrium first drives most NTS's into their constituents (free phi particles) and then causes rapid fusion into large NTS's. If freeze-out occurs during the first phase, the NTS's are almost entirely destroyed, while if it occurs during the second phase, solitosynthesis occurs and NTS's may be cosmically relevant. For slow reaction rates the NTS's are born frozen out and have the abundance determined by the phase transition. Analytic approximations for determining the abundances are developed, and tested by numerically integrating a reaction network in an expanding universe. Unfortunately, for most of the parameter space considered, solito-destruction/evaporation occurs.
- Publication:
-
Unknown
- Pub Date:
- March 1989
- Bibcode:
- 1989scen.rept.....G
- Keywords:
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- Cosmology;
- Destruction;
- Evaporation;
- Fusion (Melting);
- Phase Transformations;
- Topology;
- Abundance;
- Reaction Kinetics;
- Relic Radiation;
- Atomic and Molecular Physics