Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2000-05-26
Grav.Cosmol. S6 (2000) 51-58
Physics
High Energy Physics
High Energy Physics - Phenomenology
8 pages
Scientific paper
The collapse of sufficiently large closed domain wall produced during second order phase transition in the vacuum state of a scalar field can lead to the formation of black hole. The origin of domain walls with appropriate size and energy density could be a result of evolution of an effectively massless scalar field at the inflational epoch. We demonstrate that in this case the situation is valued when there are compact domains of less favorable vacuum surrounded by a sea of another vacuum. Each domain has a surface composed of vacuum wall that stores a significant amount of energy, and can collapse into the black hole. This offers the way of massive primordial black holes formation in the early Universe.
Khlopov Maxim Yu.
Rubin Sergei. G.
Sakharov Alexander S.
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