Bubble growth and droplet decay in the quark-hadron phase transition in the early Universe
- 15 September 1986
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 34 (6) , 1719-1738
- https://doi.org/10.1103/physrevd.34.1719
Abstract
When the Universe was about 10 μsec old, it underwent a phase transition in which the quarks and gluons condensed into hadrons. We assume that this phase transition was of first order and study how the Universe evolved through the mixed phase in a scenario with small initial supercooling and monotonically growing hadronic bubbles. Nucleation of bubbles, collisions of shock fronts preceding the bubbles, arrestation of bubble growth by the reheating due to these collisions, subsequent slow growth of the bubbles to fill the entire Universe, condensation of baryon number, death of the remaining quark matter droplets, and the resulting density perturbations are discussed. A (1+1)-dimensional approximation is frequently used to make analytic calculations possible.Keywords
This publication has 27 references indexed in Scilit:
- Bubble collisions in the cosmological quark-hadron phase transitionPhysics Letters B, 1985
- Strange matter and big bang helium synthesisPhysics Letters B, 1985
- Supercooling, entropy production, and bubble kinetics in the quark-hadron phase transition in the early universePhysics Letters B, 1984
- Cosmic separation of phasesPhysical Review D, 1984
- Nucleation of cosmological phase transitionsPhysics Letters B, 1983
- Time limit for hadronic phase transition in the big bangPhysics Letters B, 1983
- The quark-hadron phase transition in the early universePhysics Letters B, 1982
- The survival of primordial color fluctuationsPhysics Letters B, 1982
- Spontaneous generation of density perturbations in the early UniverseNature, 1982
- The thermodynamics of the quark-hadron phase transition in the early universeNuclear Physics B, 1981