Quantum Black Holes: Dual Dynamics and Brane Evaporation
Exploring the dual dynamics of quantum black holes reveals new perspectives on black hole evaporation. By placing black holes on branes, we can study their classical picture in higher dimensions. This approach provides insights that were previously unattainable, leading to a better understanding of
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Dp-branes, NS5-branes, U-duality, and M-Theory Overview
Overview of Dp-branes, NS5-branes, and U-duality derived from nonabelian (2,0) theory with Lie 3-algebra. Introduction to M-theory, including M2-branes and M5-branes in the strong coupling limit. Discussion on BLG theory, Lorentzian Lie 3-algebra, and the ABJM theory for M2-branes.
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Ramond-Ramond Couplings of D-branes
Superstring theory encompasses massless, massive, and tachyonic modes, including Ramond-Ramond fields crucial for understanding interactions among D-branes. Explore RR couplings, BSFT, and RR sector analysis to unveil fundamental aspects
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Enstrophy and AdS4 Black Branes: Avant-Garde Methods for QFT and Gravity
Explore the avant-garde methods of using enstrophy and AdS4 black branes in the realms of quantum field theory and gravity, shedding new light on relativistic hydrodynamics and its correspondence with gravity. Dive into the manifestation of enstrophy in the gravity dual, unraveling the interplay bet
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Spectral Methods for Quasi-Normal Modes in Electromagnetic Branes
Explore the application of spectral methods in finding Quasi-Normal Modes (QNM) of electromagnetic branes using numerical relativity and holography. Discover the holographic model for the charged Quark Gluon Plasma in an external magnetic field and delve into the spectral method overview for solving
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