Space-time in light of Karolyhazy uncertainty relation
Michael Maziashvili
TL;DR
This paper explores the implications of the Karolyhazy uncertainty relation on the nature of space-time, linking quantum mechanics and general relativity to explain dark energy's role in space-time stability.
Contribution
It introduces a novel perspective on space-time stability by integrating the Karolyhazy uncertainty relation with dark energy dynamics.
Findings
Dark energy is essential for space-time existence and stability.
Quantum uncertainties influence the structure and evolution of space-time.
Theoretical framework connects quantum mechanics with cosmological observations.
Abstract
General relativity and quantum mechanics provide a natural explanation for the existence of dark energy with its observed value and predict its dynamics. Dark energy proves to be necessary for the existence of space-time itself and determines the rate of its stability.
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