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Título:
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Inertial mass of an elementary particle from the holographic scenario
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Autor/a:
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Giné, Jaume
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Notas:
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Various attempts have been made to fully explain the mechanism by which a body has inertial mass. Recently it has been proposed that this mechanism is as follows: when an object accelerates in one direction a dynamical Rindler event horizon forms in the opposite direction, suppressing Unruh radiation on that side by a Rindler-scale Casimir effect whereas the radiation in the other side is only slightly reduce by a Hubble-scale Casimir effect. This produces a net Unruh radiation pressure force that always opposes the acceleration, just like inertia, although the masses predicted are twice those expected, see \cite{Mc6}. In a later work an error was corrected so that its prediction improves to within 26\% of the Planck mass, see \cite{GM}. In this paper the expression of the inertial mass of a elementary particle is derived from the holographic scenario giving the exact value of the mass of a Planck particle when it is applied to a Planck particle.
The author thanks the referee for the comments and suggestions that helped to improve this paper. The author is partially supported by a MINECO/ FEDER grant number MTM2014-53703-P and an AGAUR (Generalitat de Catalunya)
grant number 2014SGR 1204 |
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Materia(s):
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-Inertial mass
-Unruh radiation
-Holographic scenario
-Dark matter
-Dark energy
-Cosmology |
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Derechos:
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(c) World Scientific Publishing, 2017
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Tipo de documento:
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Artículo
Artículo - Versión aceptada |
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Editor:
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World Scientific Publishing
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