TITLE:
Dark Energy Calculations Using the Paraquantum Gamma Factor (γPψ) on the Relativistic Energy Equation
AUTHORS:
João Inácio Da Silva Filho
KEYWORDS:
Paraconsistent Logic, Paraquantum Logic, Dark Energy, Dark Matter, Relativity Theory
JOURNAL NAME:
Journal of Modern Physics,
Vol.5 No.6,
April
9,
2014
ABSTRACT:
A
Paraconsistent Logic (PL) is a
non-classical logic which revokes the principle of non-Contradiction and admits the treatment of contradictory
information in its theoretical structure. Paraquantum Logic (PQL) is based on a type of PL
denominated Paraconsistent Annotated Logic with annotation of two values
(PAL2v). The PAL2v have a representative Lattice of four vertices (Lattice
FOUR) where are made interpretations with construction of Paraquantum Logical
Model and equations capable computation values extract of Observable Variable
measurements. The studies of the PQL are based on propagation of Paraquantum logical states ψ in a Paraquantum Universe represented by PQL-Lattice of four vertices. These studies of PQL are based in two Paraquantum factors: the Paraquantum Gamma
Factor (γPψ) that has his action in the
measurements of Observable Variables in the Physical world and the Paraquantum
Factor of quantization hψ,
which has his action in the Paraquantum Universe. In this paper we analyze the
application of Paraquantum Gamma Factor γPψ and its intrinsic characteristics
that add important information into the equation of Einstein’s relativistic
Energy (E = MC2). In this article were made several calculations to
demonstrate the effects of applying the Paraquantum Gamma Factor (γPψ)
in relativistic energy equation. It is found that the factors of using the
Paraquantum Logical Model make an adjustment in the equation of Einstein’s
relativistic Energy and identify related values with recent results found for
the Dark Energy and dark matter. In the Paraquantum/Relativistic Energy
equation the γPψ appears as an important factor of transition
between the relativistic universe and the Newtonian Universe. The results suggest
that its use would be very important in the interpretation of the behavior of
other astronomical factors as the cosmological constant and gravitation.