Gravi-Weak Unification and the Black-Hole-Hedgehog's Solution with Magnetic Field Contribution

Abstract

In the present paper, we investigated the gravitational black-hole-hedgehog's solution with magnetic field contribution in the framework of the f(R)--gravity described by the Gravi-Weak unification model. Assuming the Multiple Point Principle (MPP), we considered the existence of the two degenerate vacua of the Universe: the first Electroweak (EW) vacuum with v1 ≈ 246 GeV ("true vacuum"), and the second Planck scale ("false vacuum") with v2 1018 GeV. In these vacua, we investigated different topological defects. The main aim of this paper is an investigation of the black-hole-hedgehog configurations as defects of the "false vacuum". We have obtained the solution which corresponds to a global monopole, that has been "swallowed" by the black-hole with core mass MBH≈ 3.65× 1018\,\, GeV and radius δ ≈ 6· 10-21 GeV-1. We investigated the metric in the vicinity of the black-hole-hedgehog and estimated its horizon radius: rh≈ 1.14 δ. We have considered the phase transition from the "false vacuum" to the "true vacuum" and confirmed the stability of the EW--vacuum.