Theoretical Calculation of Vacuum Energy Density Based on the Fractal Quantum Gravity Theory

Shuming Li; Lihua Li Huang; Joyce Huang; Shuwei Li

doi:10.1142/S2424942424500099

Reports in Advances of Physical Sciences (Jan 2024)

Theoretical Calculation of Vacuum Energy Density Based on the Fractal Quantum Gravity Theory

Shuming Li,
Lihua Li Huang,
Joyce Huang,
Shuwei Li

Affiliations

Shuming Li: Kansas State Department of Education, 900 SW Jackson St Suite 351, Topeka, KS 66612, USA
Lihua Li Huang: 303 Ray St., Pleasanton, CA 94566, USA
Joyce Huang: 2726 Vista Diablo Ct. Pleasanton CA 94566, USA
Shuwei Li: Livermore, CA 94550, USA

DOI: https://doi.org/10.1142/S2424942424500099
Journal volume & issue: Vol. 08

Abstract

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There has been a huge discrepancy between the vacuum energy density calculated based on the existing quantum theories and the observational values. The calculated vacuum energy density is about 120 orders of magnitude greater than its observational values, which is one of the worst theoretical predictions in the history of modern physics. As a promising quantum gravity theory, the newly developed fractal quantum gravity (FQG) theory has introduced the smallest constant of the product of space, time and energy of Space-Time Quantum of Action (STQA). The product of space, time and energy of every particle is integer times of this smallest constant — STQA. Based on the FQG equation, we have calculated the vacuum energy density which is a perfect match with its observational values. This recent development has shed much insight into the intrinsic nature of vacuum and it will continue to provide guidance of future research in the area of dark energy.

Published in Reports in Advances of Physical Sciences

ISSN: 2424-9424 (Print); 2529-752X (Online)
Publisher: World Scientific Publishing
Country of publisher: Singapore
LCC subjects: Science: Physics
Website: http://www.worldscientific.com/worldscinet/raps

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