Dark Matter-Dark Energy as Massive Bosons a Quantum Multi-Entanglement System with Dark Matter or Dark Energy as Some Massive Bosons-String Particles of Spin 2

Abstract

Robert Dosseh Kpotogbey

A quantum multi-entanglement system with Dark matter or dark energy as some massive bosons-string particles of spin 2. Dark matter or dark energy are some particles of spin 2 instead of near spin 0 ones. Example 1: dE = 4.Sqrt{(gM^2)/sqrt(2)} ~ 125.5673374143954990316092809188 GeV ((gM^2) = 1393.632885870 7575005182839547884 GeV2) the particle at exactly some 125 GeV and spin 1+1+1-1=2 (As a frequent Space-Time reflect.) or 1-1+1-1=0. The Source of massive bosons that are dark matter-dark energy simulators is probably the extreme side of black hole's core where the magnetic field stopping matter is getting strongest. Magnetic Field [B] = kg/ (s2.A), ([E] = m2.kg/s2), [E].(1/(m2.A)) = [B], Aâ??, dâ?? → Eâ?? ([d] = m), Mâ?? → q.Aâ??,dâ?? → Eâ?? ([M] = kg) We strive to prevent the emission of massive gravitons into the central black hole, considering that a Modified Newtonian dynamics would require measurement of its effects starting from the sun and its (4.152±0.014).106 Msun → L ~ 2.5 kpc=7.7142.1019 m new gravitational field: 1Msun → 0.602119460500963.10-6 kpc (1.857947976878612.1013 m=124.1960537090558 UA > 40 UA: And have, from certain constant effects, effects on the closest star to the Sun, α Cen C (Proxima Centauri), is 1.316 parsec (4.28 light years) away [1]. Or (4.152±0.014).106 Msun → (L ~ 2.5 kpc=7.7142.1019 m)2 1Msun → 1.505298651252408.10-6 kpc2 → 0.001226906129763972 kpc (3.785839706490093.1016 m) = 253067.5548359765 UA To affect the closest star to the Sun, α Cen C (Proxima Centauri), is 1.316 parsec (4.28 light years) away. Dark Matter-Effects evolve with the quantity of black holes and black holes-cores like another row of other hypothetical phenomena [2].

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