Formation of Complex Matter Structures and Mutual Relations Between the Mass of Elementary Particles

TL;DR

This paper explores the formation of complex matter structures in the universe, linking elementary particle masses with large-scale cosmic phenomena through a specific cosmological model.

Contribution

It introduces a novel connection between elementary particle masses and cosmic structure formation within the Expansive Nondecelerative Universe model.

Findings

Jeans mass at radiation era end equals black hole mass limit

Nucleons' gravitational range matches their Compton wavelength

Deep relationships between lepton and boson masses

Abstract

The model of Expansive Nondecelerative Universe leads to a conclusion stating that at the end of radiation era the Jeans mass was equal to the upper mass limit of a black hole and, at the same time, the effective gravitational range of nucleons was identical to their Compton wavelength. At that time nucleons started to exert gravitational impact on their environment which enabled to large scale structures become formed. Moreover, it is shown that there is a deep relationships between the inertial mass of various leptons and bosons and that such relations can be extended also into the realm of other kinds of elementary particles.