2011
DOI: 10.1007/s10509-011-0803-x
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Universality of the self gravitational potential energy of any fundamental particle

Abstract: Abstract. -Using the relation proposed by Weinberg in 1972, combining quantum and cosmological parameters, we prove that the self gravitational potential energy of any fundamental particle is a quantum, with physical properties independent of the mass of the particle. It is a universal quantum of gravitational energy, and its physical properties depend only on the cosmological scale factor R and the physical constants h and c. We propose a modification of the Weinberg´s relation, keeping the same numerical val… Show more

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Cited by 7 publications
(4 citation statements)
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“…This mass coincides minimum quantum of energy from Alfonso-Faus (2012;Alfonso-Faus and Alfonso, 2013). This minimum quantum of energy seems close to the graviton mass obtained by different methods (Woodward et al, 1975;Gershtein et al, 1997;Valev, 2005;Alves et al, 2011).…”
Section: The Yukawa Strong Force Is Finite-range Gravitysupporting
confidence: 88%
“…This mass coincides minimum quantum of energy from Alfonso-Faus (2012;Alfonso-Faus and Alfonso, 2013). This minimum quantum of energy seems close to the graviton mass obtained by different methods (Woodward et al, 1975;Gershtein et al, 1997;Valev, 2005;Alves et al, 2011).…”
Section: The Yukawa Strong Force Is Finite-range Gravitysupporting
confidence: 88%
“…Therefore, we find the general solution (8) Carvalho, 1995;Valev, 2009) and the minimum measurable mass/energy in the Sivaram, 1982;Alfonso-Faus, 2012). The exceptionally small mass m 3 seems close to the graviton mass obtained by different methods (Woodward et al, 1975;Gershtein et al, 1998;Valev, 2008;Alves et al, 2011).…”
Section: General Solution Of the Problem For Finding Of A Mass Dimenssupporting
confidence: 85%
“…Replacing the recent values of the constants c, h and H in (6) we obtain m 2~ 2.70×10 −69 kg = 1.52×10 −33 eV. This exceptionally small mass coincides with the minimal measurable gravitational self energy of a particle (Sivaram, 1982) which is accepted as minimum quantum of energy H h~10 −33 eV from Alfonso-Faus Science Publications (2012;Alfonso-Faus et al, 2013). This quantity takes substantial place in the estimations of total information and entropy of the universe (Gkigkitzis et al, 2013;Haranas and Gkigkitzis, 2013).…”
Section: Three Fundamental Masses Derived By Dimensional Analysismentioning
confidence: 65%