Journal of Physical Chemistry & Biophysics
Open Access

Is the Hawking′s scenarios of black holes evaporation the only possible solution?

2^nd International Conference on Physics

August 28-30, 2017 Brussels, Belgium

Gaina Alexei

Institute of Applied Physics, Republic of Moldova

Posters & Accepted Abstracts: J Phys Chem Biophys

Abstract :

The author is considering two possible scenarios of black holes evaporation. First one, coincide with well known S Hawking�s (1974, 1975) scenarios, according to which actually black holes (created after the Big Bang, perhaps) with should evaporate, while another, which would take into account the occurence of mass particles bound states ( see [1]), especially Bose mass particles, of which the Higgs boson is of special interest. The second scenarios suppose a concurrence between the Hawking process and Bose mass particles exponentially fast accumulation with a rate of Black Hole�s mass evolution: , =initial Black Hole�s mass, =emmited particles spin Eq. (1) When the time is going to the mass of a Black Hole is going to 0. The time of diminishing by a half of the initial mass of a Black Hole is: Eq. (2) which corresponds to ~54700 sec=15.19 hours for a Black Hole of mass (which is nearly 1 mil tones in weight). This would occurr due to generation of a Higgs boson (s=o) with mass . If the Higgs boson mass is 125 Gev, the time of diminishing by a half of the Black Hole�s mass would be ~ 97 sec. For ,when the innermost stable classical (quasi-classical) and quantum mechanical orbit still exist .