Dyonic black hole and holography

Dutta, Suvankar; Jain, Akash; Soni, Rahul

doi:10.1007/jhep12(2013)060

Cited by 72 publications

(56 citation statements)

References 38 publications

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“…For these reasons we expect that the phase structure of the grand-canonical ensemble is not "as interesting" as that of the canonical ensemble. (See, however, recent work [71].) Figure 36.…”

Section: Discussionmentioning

confidence: 98%

“…Such a phenomenon (discussed further in the next section) has a dual interpretation for a boundary quantum field theory via the AdS/CFT correspondence and is related to a confinement/deconfinement phase transition in the dual quark gluon plasma [61]. For charged or rotating black holes one likewise observes a small/large black hole first order phase transition reminiscent of the liquid/gas transition of the van der Waals fluid [4,6,8,[15][16][17]21,22,27,28,33,39,[62][63][64][65][66][67][68][69][70][71].…”

Section: Canonical Ensemble and Phase Transitionsmentioning

confidence: 93%

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Thermodynamics of Rotating Black Holes and Black Rings: Phase Transitions and Thermodynamic Volume

et al. 2014

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In this review we summarize, expand, and set in context recent developments on the thermodynamics of black holes in extended phase space, where the cosmological constant is interpreted as thermodynamic pressure and treated as a thermodynamic variable in its own right. We specifically consider the thermodynamics of higher-dimensional rotating asymptotically flat and AdS black holes and black rings in a canonical (fixed angular momentum) ensemble. We plot the associated thermodynamic potential-the Gibbs free energy-and study its behavior to uncover possible thermodynamic phase transitions in these black hole spacetimes. We show that the multiply-rotating Kerr-AdS black holes exhibit a rich set of interesting thermodynamic phenomena analogous to the "every day thermodynamics" of simple substances, such as reentrant phase transitions of multicomponent liquids, multiple first-order solid/liquid/gas phase transitions, and liquid/gas phase transitions of the van der Waals type. Furthermore, the reentrant phase transitions also occur for multiply-spinning asymptotically flat Myers-Perry black holes. These phenomena do not require a variable cosmological constant, though they are more naturally understood in the context of the extended phase space. The thermodynamic volume, a quantity conjugate to the thermodynamic pressure, is studied for AdS black rings and demonstrated to satisfy the reverse isoperimetric inequality; this provides a first example of calculation confirming the Galaxies 2014, 2 90 validity of isoperimetric inequality conjecture for a black hole with non-spherical horizon topology. The equation of state P = P (V, T ) is studied for various black holes both numerically and analytically-in the ultraspinning and slow rotation regimes.

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Section: Discussionmentioning

confidence: 98%

Section: Canonical Ensemble and Phase Transitionsmentioning

confidence: 93%

Thermodynamics of Rotating Black Holes and Black Rings: Phase Transitions and Thermodynamic Volume

et al. 2014

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“…Considering the extended phase space, and hence treating the cosmological constant as a dynamical quantity, is a very interesting theoretical idea in disclosing possible phase transitions in AdS black holes [28]. More discussions in this direction can be found as well in [29][30][31][32][33][34][35][36][37].…”

Section: Introductionmentioning

confidence: 99%

Critical behavior of Born-Infeld AdS black holes in the extended phase space thermodynamics

2014

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We study the thermodynamics of D-dimensional Born-Infeld AdS black holes in the extended phase space. We find that the usual small-large black hole phase transition, which exhibits analogy with the Van de Waals liquid-gas system, holds in all dimensions greater than three. However, different from the four-dimensional case, in the system of higher dimensional Born-Infeld AdS black holes there is no reentrant phase transition. For the three-dimensional Born-Infeld AS black hole, there does not exist critical phenomena.

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“…First, we consider the dyonic black hole in the holographic setup similar to [47]. We chose this type of black hole as it has both electric and magnetic charges.…”

Section: Complexity In Dyonic Black Holesmentioning

confidence: 99%

Complexity growth rate during phase transitions

Ghodrati

2018

Phys. Rev. D

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We present evidences for the connection between the potential of different fields and complexity growth rates both in conformal and confining cases. By studying different models, we also establish a strong connection between phase transitions and the discontinuities in the complexity growth rates. In the first example, for the dyonic black holes which are dual to van der Waals fluids, we find a similar first order phase transition in the behavior of complexity growth rate. We then compare the Schwinger effect and also the behavior of complexity in the AdS and AdS soliton backgrounds and comment on the connection between them. Finally, in a general Gubser model of QCD, we present the connections between the potentials, entropies, speed of sounds and complexity growth rates during crossover, first and second order phase transitions and also the behavior of quasinormal modes.

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Dyonic black hole and holography

Cited by 72 publications

References 38 publications

Thermodynamics of Rotating Black Holes and Black Rings: Phase Transitions and Thermodynamic Volume

Thermodynamics of Rotating Black Holes and Black Rings: Phase Transitions and Thermodynamic Volume

Critical behavior of Born-Infeld AdS black holes in the extended phase space thermodynamics

Complexity growth rate during phase transitions

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