Numerical simulations show dynamical black hole formation in non-Markovian open JT gravity, corresponding to irreversible thermalization on the boundary.
Horizon formation and far-from-equilibrium isotropization in supersymmetric Yang-Mills plasma
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
abstract
Using gauge/gravity duality, we study the creation and evolution of anisotropic, homogeneous strongly coupled $\mathcal N=4$ supersymmetric Yang-Mills plasma. In the dual gravitational description, this corresponds to horizon formation in a geometry driven to be anisotropic by a time-dependent change in boundary conditions.
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Bosonic compact objects in AdS with three radial mass profiles satisfy Buchdahl compactness limit, observational mass bounds, and null/strong energy conditions, indicating stable non-collapsing models.
citing papers explorer
-
Black-hole formation and thermalization in open JT gravity
Numerical simulations show dynamical black hole formation in non-Markovian open JT gravity, corresponding to irreversible thermalization on the boundary.
-
Compact objects in AdS spacetime with exponential, quadratic and power-law bosonic mass profiles
Bosonic compact objects in AdS with three radial mass profiles satisfy Buchdahl compactness limit, observational mass bounds, and null/strong energy conditions, indicating stable non-collapsing models.