Fractional-order phase transition of charged AdS black holes

Ma, Meng-Sen

doi:10.1016/j.physletb.2019.06.054

Cited by 7 publications

(15 citation statements)

References 42 publications

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“…When β > 4/3, the ß-order fractional derivatives of the Gibbs free energy diverge. Hence, as for 4D RN-AdS black holes [1], the FPT order of the RN-AdS black hole surrounded by quintessence is β 4/3. This is clearly illustrated by the left panel of Figure 1 where the fractional derivative D β t g is plotted as a function of the reduced temperature t for several values of β: β 9/6, 9/8, and 4/3 near the critical point.…”

Section: Charged Ads Black Hole Surrounded By Quintessencementioning

confidence: 89%

“…The generalized Ehrenfest classification holds for all thermodynamic systems having phase structures, including AdS black holes with analogous behavior to Van der Waals gases. Indeed, a first study recently performed by Ma [1] showed that RN-AdS black holes can undergo 4/3 order FPT. In this paper, we aim to explore further this issue and see whether this fractional order holds for any AdS black hole solution, as in VdW systems.…”

Section: Introductionmentioning

confidence: 99%

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Fingerprinting the Fractional Order Phase Transitions in AdS Black Holes

Chabab

Iraoui

2021

Front. Phys.

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In this paper, we have extended and deepened the study on fractional order phase transition (FPT) of a charged AdS black hole. We have carried out a detailed analysis of FPT for several AdS black hole prototypes: black hole surrounded by quintessence background, 5D Gauss-Bonnet, D dimensional RN-AdS BH, and lastly Kerr black holes. We have shown that the 4/3 order FPT at critical points holds for the first three black holes systems, while for Kerr black holes, the fractional order is rather 1/3. These results suggest two remarkable features: Firstly 4/3 order phase transition can be assumed for asymptotically AdS black holes spherical solutions; secondly the fractional order is not universal and can be affected by the geometric symmetry.

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Section: Charged Ads Black Hole Surrounded By Quintessencementioning

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Fingerprinting the Fractional Order Phase Transitions in AdS Black Holes

Chabab

Iraoui

2021

Front. Phys.

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“…One naturally wonders how this fluctuation of y max compares with the mean of the separation between the scaled positions of the rightmost and the second rightmost particles denoted as ∆ edge . The N dependence of this average separation at the edge § Alternatively, the Ehrenfest classification [62][63][64] can be generalised by extending the notion of normal derivatives to fractional derivatives [65][66][67] can be obtained using the "Lifshitz argument", which is frequently used in extreme value statistics [14,17]. According to this argument…”

Section: Distribution In the Typical Regionmentioning

confidence: 99%

Edge fluctuations and third-order phase transition in harmonically confined long-range systems

Kethepalli,

Kulkarni,

Kundu

et al. 2021

Preprint

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We study the distribution of the position of the rightmost particle x max in a N -particle Riesz gas in one dimension confined in a harmonic trap. The particles interact via long-range repulsive potential, of the form r −k with −2 < k < ∞ where r is the inter-particle distance. In equilibrium at temperature O(1), the gas settles on a finite length scale L N that depends on N and k. We numerically observe that the typical fluctuation of y max = x max /L N around its mean is of O(N −η k ). Over this length scale, the distribution of the typical fluctuations has a N independent scaling form. We show that the exponent η k obtained from the Hessian theory predicts the scale of typical fluctuations remarkably well. The distribution of atypical fluctuations to the left and right of the mean y max are governed by the left and right large deviation functions, respectively. We compute these large deviation functions explicitly ∀k > −2. We also find that these large deviation functions describe a pulled to pushed type phase transition as observed in Dyson's log-gas (k → 0) and 1d one component plasma (k = −1). Remarkably, we find that the phase transition remains 3 rd order for the entire regime. Our results demonstrate the striking universality of the 3 rd order transition even in models that fall outside the paradigm of Coulomb systems and the random matrix theory. We numerically verify our analytical expressions of the large deviation functions via Monte Carlo simulation using an importance sampling algorithm.

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“…

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mentioning

confidence: 99%

“…The generalized Ehrenfest classification holds for all thermodynamic systems having phase structures, including AdS black holes with analogous behaviour to Van der Waals gases. Indeed, a first study recently performed by Ma [1] showed that RN-AdS black holes can undergo 4/3 order FPT. In this paper, we aim to explore further this issue and see whether this fractionnal order holds for any AdS black hole solution, as in VdW systems.…”

mentioning

confidence: 99%

Fingerprinting the fractional order phase transitions in AdS black holes

Chabab,

Iraoui

2020

Preprint

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In this paper, we have extended and deepened the study on fractional order phase transition (FPT) of a charged AdS black hole performed in [1]. We have carried out a detailed analysis of FPT for three AdS black hole prototypes: black hole surrounded by quintessence background, 5D Gauss-Bonnet, and lastly Kerr black holes. We have shown that the 4/3 order FPT at critical points obtained in [1] still holds for the first two black holes systems, while for Kerr black holes, the fractional order is rather 1/3. These results suggest two remarkable features: Firstly 4/3 order phase transition can be assumed for asymptotically AdS black holes spherical solutions, secondly the fractional order is not universal and can be affected by the geometric symmetry.

show abstract

Fractional-order phase transition of charged AdS black holes

Cited by 7 publications

References 42 publications

Fingerprinting the Fractional Order Phase Transitions in AdS Black Holes

Fingerprinting the Fractional Order Phase Transitions in AdS Black Holes

Edge fluctuations and third-order phase transition in harmonically confined long-range systems

Fingerprinting the fractional order phase transitions in AdS black holes

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