Quantum de Sitter Space-Time and the Dark Energy
Liao Liu
TL;DR
This paper extends a previous quantization method for Schwarzschild black holes to static de Sitter space-time, aiming to develop a quantum theory for de Sitter space and dark energy using Bohr-Sommerfeld quantization.
Contribution
It introduces a novel application of Euclidean quantization and Bohr-Sommerfeld conditions to static de Sitter space, linking quantum gravity concepts to dark energy.
Findings
Proposes a quantum model for de Sitter space.
Establishes a theoretical framework connecting quantum gravity and dark energy.
Extends previous black hole quantization techniques to cosmological space-times.
Abstract
Three years ago, we introduced a new way to quantize the static Schwarzschild black hole(SSBH), there the SSBH was first treated as a single periodic Euclidean system and then the Bohr-Sommerfeld quantum condition of action was used to obtain a quantum theory of Schwarzschild black hole.[1] Now in this short report, we try to extend the above method to quantize the static de Sitter(SDS) space-time and establish a quantum theory of both SDS space and dark energy.
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Taxonomy
TopicsRelativity and Gravitational Theory · Cosmology and Gravitation Theories · Black Holes and Theoretical Physics