Data-Driven Insights to Cosmology in the Dark Universe. Journal of Plasma Chemistry and Plasma Processing Research 2022, 3, doi:10.33140/jpcppr.03.01.05.
Data-Driven Insights to Cosmology in the Dark Universe. Journal of Plasma Chemistry and Plasma Processing Research 2022, 3, doi:10.33140/jpcppr.03.01.05.
Data-Driven Insights to Cosmology in the Dark Universe. Journal of Plasma Chemistry and Plasma Processing Research 2022, 3, doi:10.33140/jpcppr.03.01.05.
Data-Driven Insights to Cosmology in the Dark Universe. Journal of Plasma Chemistry and Plasma Processing Research 2022, 3, doi:10.33140/jpcppr.03.01.05.
Abstract
The sources of dark matter and its spatial distribution is not in the typical standard model. The study thought to induct the physical causalities with empirical evidence on the theory of black hole and white hole juxtapose. The research applied a mixed method of data analysis and observational cosmology. With the cosmological observations on the traces of white holes, the research finds that the accretion phenomenon of black holes is largely contributed by its thermonuclear binding with the white hole. The antimatter saturated plasma of cold fusion and hot fission are key to the phenomenon of black hole and white hole juxtapose. The force between the black hole and the white hole is stronger than the strong force, and sheds new directions on cosmological and gravitation studies. The research concludes that black holes are white hole entropy. The higher order of the universe in matter forms can exist beyond the observed force. The thermal arrow of time is critical to future general relativity dependent instrumentation discoveries.
Keywords
white hole; black hole; nuclear astrophysics; black hole seeds; quantum fluctuation; thermal fluctuation; temporal information; time curvatures; quantum forces; NGC 3034; NGC 3372
Subject
Chemistry and Materials Science, Electrochemistry
Copyright:
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