Numerical Models of Cosmological Evolution of the Degenerated   Fermi-system of Scalar Charged Particles

Yu.G. Ignatyev; A.A. Agathonov

arXiv:1408.4738·gr-qc·July 19, 2023·1 cites

Numerical Models of Cosmological Evolution of the Degenerated Fermi-system of Scalar Charged Particles

Yu.G. Ignatyev, A.A. Agathonov

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TL;DR

This paper develops numerical models to simulate the cosmological evolution of a degenerated Fermi system of scalar charged particles, using Mathematica 9, based on a prior mathematical framework.

Contribution

It introduces the first numerical models for the cosmological evolution of scalar charged Fermi systems, expanding on previous theoretical work.

Findings

01

Numerical simulations of the Fermi system evolution over cosmological timescales.

02

Insights into the behavior of scalar charged particles in the early universe.

03

Validation of the mathematical model through computational analysis.

Abstract

Based on mathematical model of the statistical Fermi system with the interparticle interaction which was constructed in the previous articles, this work offers the construction and analysis of the numerical models of cosmological evolution of the single-component degenerated Fermi system of the scalar particles. The applied mathematics package Mathematica 9 is used for the numerical model construction.

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Taxonomy

TopicsMaterial Science and Thermodynamics · advanced mathematical theories · Relativity and Gravitational Theory