Effects of massive gravity on s-wave holographic superconductor

Parai, Diganta; Pal, Suchetana; Gangopadhyay, Sunandan

doi:10.1142/s0217751x2350032x

Int. J. Mod. Phys. A

2023

DOI: 10.1142/s0217751x2350032x

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Effects of massive gravity on s-wave holographic superconductor

Diganta Parai

Suchetana Pal

Sunandan Gangopadhyay

Abstract: In this paper, analytical investigation of the properties of [Formula: see text]-wave holographic superconductors in the background of a massive gravity theory in the probe limit has been carried out by employing the Sturm–Liouville eigenvalue method. We obtain the analytical expression for the relation between the critical temperature and the charge density. We also obtain the expression for the condensation operator and value of the critical exponent. We observe that as we increase the massive gravity coupli… Show more

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2024

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Holographic entanglement entropy and subregion complexity for s-wave superconductor from massive gravity

Hu,

Wu,

et al. 2024

Eur. Phys. J. C

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In this paper, in the framework of massive gravity, the holographic entanglement entropy (HEE) and holographic subregion complexity (HSC) are numerically investigated by means of the RT formula and the subregion CV conjucture for holographic superconductor with backreaction. We find that both the HEE and HSC exhibit discontinuity of slope at critical temperature, hence both of them are able to reflect the information of phase transition in the holographic superconducting system. Different from the previous studies, the HEE and HSC as function of strip-width are not always lower in the superconducting phase than ones in the normal phase, in particular the HSC decreases linearly as the subregion increases for positive coupling parameters. We notice that when the coupling parameters $$\alpha $$ α and $$\beta $$ β are taken as positive values, the HSC behaves in the same way as HEE, but when they are negative, the HSC has many different behaviors from HEE. Furthermore, we also observe that the HEE and HSC in the superconducting phase illustrate a tendency to converge to the same value as the temperature approaches zero, regardless of the coupling parameters of model. It is worth mentioning that in the massless gravity limit (the coupling parameters $$\alpha =0$$ α = 0 and $$\beta =0$$ β = 0 ), the results given by us are consistent with the case of holographic superconductor with backreaction from Einstein gravity.

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Holographic entanglement entropy and subregion complexity for s-wave superconductor from massive gravity

Hu,

Wu,

et al. 2024

Eur. Phys. J. C

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Effects of massive gravity on s-wave holographic superconductor

Cited by 1 publication

References 45 publications

Holographic entanglement entropy and subregion complexity for s-wave superconductor from massive gravity

Holographic entanglement entropy and subregion complexity for s-wave superconductor from massive gravity

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