Abstract:
We consider interactions of scalar particles, photons, and fermions in Schwarzschild, Reissner–Nordström, Kerr, and Kerr–Newman gravitational and electromagnetic fields with a zero and nonzero cosmological constant. We also consider interactions of scalar particles, photons, and fermions with nonextremal rotating charged black holes in a minimal five-dimensional gauge supergravity. We analyze the behavior of effective potentials in second-order relativistic Schrödinger-type equations. In all cases, we establish the existence of the regime of particles “falling” on event horizons. An alternative can be collapsars with fermions in stationary bound states without a regime of particles “falling.”
Keywords:quantum mechanical hypothesis of cosmic censorship, Schrödinger-type equation, effective potential, scalar particle, photon, fermion, Schwarzschild, Reissner–Nordström, Kerr, and Kerr–Newman black holes with zero and nonzero cosmological constant, anti-de Sitter black hole in five-dimensional supergravity.
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