Written by @multiversetheory | Published on 2024-02-24T04:00:23.636Z
TL;DR →
Dive into the realms of theoretical physics with this comprehensive study covering SU(3) lattice effective constants, deconfinement phase transitions, and the intriguing dynamics of black holes in multi-event horizon space-times.
This paper delves into various facets of theoretical physics, including SU(3) lattice effective constants, deconfinement phase transitions, and the behavior of black holes in multi-event horizon space-times. It examines the impact of higher derivative gravity on Page curves and explores entanglement entropy within the M-theory dual of thermal QCD. Additionally, it provides insights into the multiverse within Karch-Randall braneworlds and outlines future research directions in theoretical physics.
Authors:
(1) Gopal Yadav, Department of Physics, Indian Institute of Technology & Chennai Mathematical Institute.
Table of Links
Abstract
Acknowledgment
PART I
Chapter 1: Introduction
Chapter 2: SU(3) LECs from Type IIA String Theory
Chapter 3: Deconfinement Phase Transition in Thermal QCD-Like Theories at Intermediate Coupling in the Absence and Presence of Rotation
Chapter 4: Conclusion and Future Outlook
PART II
Chapter 5: Introduction
Chapter 6: Page Curves of Reissner-Nordström Black Hole in HD Gravity
Chapter 7: Entanglement Entropy and Page Curve from the M-Theory Dual of Thermal QCD Above Tc at Intermediate Coupling
Chapter 8: Black Hole Islands in Multi-Event Horizon Space-Times
Chapter 9: Multiverse in Karch-Randall Braneworld
Chapter 10: Conclusion and Future outlook
APPENDIX A
APPENDIX B
APPENDIX C
Bibliography
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We showed that UV valued profile functions are [2, 83]:
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