TY - JOUR
AU - Bukalov, Aleksandr
PY - 2019/03/25
Y2 - 2024/09/13
TI - On the quantum nature of black holes
JF - Physics of Consciousness and Life, Cosmology and Astrophysics
JA - Physics of Consc
VL - 19
IS - 1-2
SE - Articles
DO -
UR - https://physics.socionic.info/index.php/physics/article/view/514
SP - 21-25
AB - <p>The description of a black hole as a quantum condensate of primary fermions in the cosmological model with superconductivity (CMS), proposed earlier by the author, confirms the hypotheses of a number of authors about the internal quantization of a black hole. From the system of equations for gravitational superconductivi-ty obtained by the author, it follows that the total gravitational flow through the event horizon is equivalent to the area of this horizon. The quantization of this gravitational flow is equivalent to the quantization of the event horizon, both for the black hole and for the cosmological horizon. In this case, the elementary geometric quan-tum of the gravitational flow is the elementary Planck area by Bekenshtein. From the CMS equations it also follows that the observed Universe as a whole is the result of almost complete compensation of the superfluid and normal currents of primary fermions at a density of these currents close to the Planck one.</p>
ER -