Vector Theory of Gravity: quantum and classical effects, renormalization

In this work, we make quantization of gravitation interaction within the framework of a vector theory of gravitation for the first time. The work demonstrates that this theory meets the requirement of renormalizability. Here we consider some quantum effects, particularly graviton scattering on fermi...

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Bibliographic Details
Published inarXiv.org
Main Author Borodikhin, V N
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 26.10.2012
Subjects
Acceleration
Black holes
Dark energy
Fermions
Gravitation
Pulsars
Universe
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Summary:In this work, we make quantization of gravitation interaction within the framework of a vector theory of gravitation for the first time. The work demonstrates that this theory meets the requirement of renormalizability. Here we consider some quantum effects, particularly graviton scattering on fermion and corrections to the Newton's. Gravitational energy sign changing mechanism and classical transition on small scale is discussed. It is shown that within this theory black holes of Schwarzschield hole type can exist. Problem of dark energy structure and acceleration of Universe expansion is investigated. We also consider the behavior of binary pulsars in the vector theory of gravitation.
ISSN:2331-8422