Anthropic calculation of the velocity and acceleration of the space-time
M. Kozlowski, J. Marciak-Kozlowska
TL;DR
This paper uses a quantum heat transport model to calculate key cosmological parameters like universe expansion velocity and acceleration, incorporating anthropic constraints, and finds good agreement with observational data.
Contribution
It introduces a novel approach combining quantum heat transport equations with anthropic principles to derive cosmological parameters.
Findings
Discretized space-time radius R derived from the model
Calculated universe expansion velocity v consistent with observations
Estimated acceleration a aligns with empirical data
Abstract
In this paper considering quantum heat transport equation (QHT) formulated in our earlier papers the temperature for universes with G < 0 is calculated. As the solution of complex QHT (Schrodinger type equation), the temperature is complex also. We argue that due to anthropic limitation of the observer ImT(r,t)=0 From this condition the discretization of space-time radius R, velocity of the universe expansion v, Hubble parameter H and acceleration of the expansion a are calculated. The agreement with observational data for our Universe is quite good. PACS 98.62.Py PACS 98.80.Bp PACS 98.80.Cq
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Taxonomy
TopicsCosmology and Gravitation Theories · Advanced Thermodynamics and Statistical Mechanics · Relativity and Gravitational Theory