Abstract The strongly coupled D1-D5 conformal field theory is a microscopic model of black holes which is expected to have chaotic dynamics. Here, we study the weak coupling limit of the theory where it is integrable rather than chaotic. In this limit, the operators creating microstates of the lowest mass black hole are known exactly. We consider the time-ordered two-point function of light probes in these microstates, normalized by the same two-point function in vacuum. These correlators display a universal early-time decay followed by late-time sporadic behavior. To find a prescription for temporal coarse-graining of these late fluctuations we appeal to random matrix theory, where we show that a progressive time-average smooths the spectr...
Abstract We study a precise and computationally tractable noti...
Many and very general arguments indicate that the event horizon behaves as a stretched membrane. We ...
Quantum chaotic systems are often defined via the assertion that their spectral statistics coincides...
Abstract We argue that the late time behavior of horizon fluctuations in large anti-de Sitter (AdS) ...
A class of tensor models were recently outlined as potentially calculable examples of holography: th...
In this paper, we make a systematical and in-depth study on the chaotic dynamics of the string aroun...
We study the motion of a string in the background of the Schwarzschild black hole in AdS5 by applyin...
We analyze the low temperature structure of a supersymmetric quiver quantum mechanics with randomize...
We study a class of fluctuating higher dimensional black hole configurations obtained in string theo...
Abstract We use random matrix theory to explore late-time chaos in supersymmetric quantum mechanical...
Holographic theories with classical gravity duals are maximally chaotic; i.e., they saturate the uni...
We investigate the possibility that the geometry dual to a typical AdS black hole microstate corresp...
It has been proposed that the exponential decay and subsequent power law saturation of out-of-time-o...
International audienceWe model black hole microstates and quantum tunneling transitions between them...
In this thesis, we study microstate geometries of black holes in string theory and explore several a...
Abstract We study a precise and computationally tractable noti...
Many and very general arguments indicate that the event horizon behaves as a stretched membrane. We ...
Quantum chaotic systems are often defined via the assertion that their spectral statistics coincides...
Abstract We argue that the late time behavior of horizon fluctuations in large anti-de Sitter (AdS) ...
A class of tensor models were recently outlined as potentially calculable examples of holography: th...
In this paper, we make a systematical and in-depth study on the chaotic dynamics of the string aroun...
We study the motion of a string in the background of the Schwarzschild black hole in AdS5 by applyin...
We analyze the low temperature structure of a supersymmetric quiver quantum mechanics with randomize...
We study a class of fluctuating higher dimensional black hole configurations obtained in string theo...
Abstract We use random matrix theory to explore late-time chaos in supersymmetric quantum mechanical...
Holographic theories with classical gravity duals are maximally chaotic; i.e., they saturate the uni...
We investigate the possibility that the geometry dual to a typical AdS black hole microstate corresp...
It has been proposed that the exponential decay and subsequent power law saturation of out-of-time-o...
International audienceWe model black hole microstates and quantum tunneling transitions between them...
In this thesis, we study microstate geometries of black holes in string theory and explore several a...
Abstract We study a precise and computationally tractable noti...
Many and very general arguments indicate that the event horizon behaves as a stretched membrane. We ...
Quantum chaotic systems are often defined via the assertion that their spectral statistics coincides...