Holographic entanglement entropy with Power-Maxwell electrodynamics in higher dimensional AdS black hole spacetime*

Author:

Wang 王 Kongchen 孔辰,Zhang 张 Wanhe 万贺,Yao 姚 Weiping 伟平

Abstract

Abstract We investigate the behaviors of the scalar operator and holographic entanglement entropy in the metal/superconductor phase transition with Power-Maxwell electrodynamics in a higher dimensional background away from the probe limit. We observe that the larger parameters b and q make the condensation of the scalar operator more difficult, and the critical temperature decreases more slowly as the factors increase. In the belt geometry, the value of the entanglement entropy in the metal and superconductor phases is not only related to the the strength of the Power-Maxwell field but also to the width of the strip geometry. At the phase transition point, the discontinuous slope of entanglement entropy is universal for different model factors. It turns out that holographic entanglement entropy is a powerful tool to probe the properties of the phase transition in this holographic superconductor model.

Funder

Guizhou Province ordinary institutions of higher learning top science and technology talents Support plan of China

Guizhou Provincial Science and Technology Planning Project of China

National Natural Science Foundation of China

Publisher

IOP Publishing

Subject

Astronomy and Astrophysics,Instrumentation,Nuclear and High Energy Physics

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