Localization of gravitational energy in ENU model and its consequences
Jozef Sima, Miroslav Sukenik, Julius Vanko
TL;DR
This paper explores the ENU model's approach to localizing gravitational energy using Vaidya metrics, demonstrating its applications in cosmic background radiation, particle interactions, and atomic phenomena, and predicting vacuum property evolution.
Contribution
It introduces a novel application of Vaidya metrics within the ENU model for gravitational energy localization and quantization, with multiple practical examples and predictions.
Findings
Energy of cosmic background radiation analyzed
Energy of Z and W bosons in weak interactions examined
Hyperfine splitting in hydrogen observed
Abstract
The contribution provides the starting points and background of the model of Expansive Nondecelerative Universe (ENU), manifests the advantage of exploitation of Vaidya metrics for the localization and quantization of gravitational energy, and offers four examples of application of the ENU model, namely energy of cosmic background radiation, energy of Z and W bosons acting in weak interactions, hyperfine splitting observed for hydrogen 1s orbital. Moreover, time evolution of vacuum permitivity and permeability is predicted.%
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Taxonomy
TopicsCosmology and Gravitation Theories · Computational Physics and Python Applications · Relativity and Gravitational Theory