Author:
Dragoi, Andrei-Lucian M.
Category:
Research Papers
Sub-Category:
Relativity Theory
Date Published:
June 30, 2020
Keywords:
Einstein's constant , fine-structure constant; electro-gravitational resistivity of vacuum (EGRV); zero-energy hypothesis (ZEH); conservation principle applied on zero-energy; elementary particles (EPs); mass conjugation; neutral massless fermions; dark e
Abstract:
This paper brings into attention a possible logarithmic connection between Einstein's constant and the fine-structure constant, based on a hypothetical electro-gravitational resistivity of vacuum: we also propose a zero-energy hypothesis (ZEH) which is essentially a conservation principle applied on zero-energy that mainly states a general quadratic equation having a pair of conjugate mass solutions for each set of coefficients, thus predicting a new type of mass "symmetry" called here "mass conjugation" between elementary particles (EPs) which predicts the zero/non-zero rest masses of all known/unknown EPs to be conjugated in boson-fermion pairs; ZEH proposes a general formula for all the rest masses of all EPs from Standard model, also indicating a possible bijective connection between the three types of neutrinos and the massless bosons (photon, gluon and the hypothetical graviton), between the electron/positron and the W boson and predicting two distinct types of neutral massless fermions (modeled as conjugates of the Higgs boson and Z boson respectively) which are plausible candidates for dark energy and dark matter. ZEH also offers a new interpretation of Planck length as the approximate
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