Graviatoms with leptons and mesons

Bound quantum systems maintaining a particle in orbit around a mini-hole, called graviatoms, are considered. The graviatoms prove to exist only under some conditions, which are satisfied for systems containing leptons and mesons. Electromagnetic and gravitational radiations of charged particles in the graviatoms are comparable with Hawking's mini-hole radiation. Bound quantum systems with the neutrino has a macroscopic size, nevertheless, the neutrino energy levels are quantized. For macrobodies two cases are possible: Bohr's levels outside the body and Thomson's - inside it. The gravitational radiation proves to be negligibly small. Stable graviatoms with baryon constituents are impossible. The internal structure of the baryons, consisting of quarks and gluons, should be taken into account. There occurs a so-called quantum accretion of baryons onto a mini-hole. The whole problem is solvable within the framework of quantum chromodynamics and quantum electrohydrodynamics.

Authors
Laptev Yu.P. 1 , Fil'chenkov M.L. 2 , Kopylov S.V.3
Editors
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Publisher
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Number of issue
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Language
English
Pages
709-713
Status
Published
Department
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Link
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DOI
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Number
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Volume
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Year
2008
Organizations
  • 1 Department of Physics, Bauman Moscow State Technical University, Russian Federation
  • 2 Institute of Gravitation and Cosmology, Peoples' Friendship University of Russia, Moscow, Russian Federation
  • 3 Department of Physics, Moscow State Open University, Russian Federation
Keywords
Bosons; Electrohydrodynamics; Gravitation; Hadrons; Nuclear physics; Quantum electronics; Quantum optics; Radiation; Solids; A-particles; Gravitational radiation; Internal structure; Macroscopic sizes; Neutrino energy; Quantum chromodynamics; Quantum electrohydrodynamics; Quantum system; Fermions
Date of creation
19.10.2018
Date of change
19.10.2018
Short link
https://repository.rudn.ru/en/records/article/record/3153/