Bibliographic Information: Ali, M.S., Fairoos, C., Rizwan, C.L.A., Safir, T.K., & Cheng, P. (2024). Thermodynamics of Einstein-Gauss-Bonnet Black Holes and Ensemble-averaged Theory. arXiv preprint arXiv:2411.07147v1.
Research Objective: To investigate the thermodynamics of Einstein-Gauss-Bonnet (EGB) black holes in Anti-de Sitter (AdS) spacetime beyond the classical limit by applying the ensemble-averaged theory.
Methodology: The authors utilize the ensemble-averaged theory to calculate the gravitational partition function by incorporating non-saddle geometries, contrasting with the traditional saddle-point approximation. They numerically evaluate the ensemble-averaged free energy for five and six-dimensional EGB-AdS black holes at various values of Newton's gravitational constant (GN). Additionally, they expand the ensemble-averaged free energy in powers of GN to identify quantum corrections at subleading and sub-subleading orders.
Key Findings:
Main Conclusions: The study reveals that incorporating non-classical geometries through the ensemble-averaged theory significantly alters the understanding of EGB black hole thermodynamics. The absence of sharp phase transitions in the ensemble-averaged picture suggests a smoother thermodynamic behavior. The similarities observed between different black hole types, even beyond the classical limit, hint at underlying connections and universal features in black hole thermodynamics.
Significance: This research provides a more comprehensive framework for understanding black hole thermodynamics by moving beyond the limitations of the classical saddle-point approximation. The findings have implications for the development of a complete statistical description of black hole thermodynamics and the ongoing quest to understand quantum gravity.
Limitations and Future Research: The study focuses on specific dimensions (five and six) for EGB-AdS black holes. Exploring the ensemble-averaged theory in other dimensions and for different gravitational theories would provide a more complete picture. Further investigation into the physical interpretations of the subleading and higher-order corrections in the GN expansion could offer deeper insights into the quantum nature of gravity.
toiselle kielelle
lähdeaineistosta
arxiv.org
Tärkeimmät oivallukset
by Md Sabir Ali... klo arxiv.org 11-12-2024
https://arxiv.org/pdf/2411.07147.pdfSyvällisempiä Kysymyksiä