Stochastic model Of universe which constantly creates dark energy (Omega=0.7) and dark matter (Omega=0.3) but instantly at 0.12Gyr created nucleons and radiation

TL;DR

This paper proposes a stochastic universe model where dark energy and dark matter are constantly created through vacuum fluctuations, with nucleons and radiation formed instantaneously at 0.12 Gyr, explaining cosmic acceleration.

Contribution

It introduces a novel stochastic framework linking vacuum fluctuations to dark components and their rapid conversion into matter and radiation, explaining early universe nucleogenesis and acceleration.

Findings

Dark energy and dark matter are modeled as virtual and real Planck particles with fixed density parameters.

Nucleons and radiation are instantaneously created at 0.12 Gyr from dark energy particles.

The model accounts for the observed cosmic acceleration through cluster cohesion effects.

Abstract

An assumption attributing vacuum mass energy to symmetric 'Null' fluctuation which with equal probability either adds or subtracts, virtual planck either particles or antiparticles leads to the following net resultant: 'Dark Energy' virtual particle-antiparticle pairs and 'Dark Matter' real planck particles, constantly give $\Omega_{DE}=0.7$ and $\Omega_{DM}=03$. Second assumption that gravitational attraction propagates as particle-bridging wavelength, leads to following estimates: Instantly, astonishingly recently and utilizing the wavelength, the Dark Energy particles converted into nucleons(n) and the antiparticles into radiation (ultimately CMB). Baryogenesis occurred almost immediately in their ultra-hot clusters. Nucleonic matter declined from $\Omega_n=0.7$ at creation, to present time $\Omega_n=0.03$. Famous 'Acceleration' is attributed to the cohesion of a supreme cluster of nucleonic matter, giving $z/\ell=(1-\ell/\ell_H)^{2/3}$, $z,$ $\ell$ and $\ell_H$ being respectively, redshift, luminosity and Hubble distances.