# Holographic entanglement entropy of a $1+1$ dimensional $p$-wave   superconductor

**Authors:** Sumit R. Das, Mitsutoshi Fujita, Bom Soo Kim

arXiv: 1705.10392 · 2017-09-12

## TL;DR

This paper studies how entanglement entropy behaves across a phase transition in a holographic 1+1D p-wave superconductor, revealing a cusp at criticality and three distinct behaviors depending on subsystem size.

## Contribution

It introduces a detailed analysis of entanglement entropy behavior in a holographic p-wave superconductor, uncovering size-dependent non-monotonic patterns and a new phase diagram.

## Key findings

- Entanglement entropy shows a cusp at the phase transition point.
- Different entanglement behaviors occur depending on subsystem size.
- At high charge densities, entanglement entropy saturates.

## Abstract

We examine the behavior of entanglement entropy of a subsystem $A$ in a fully backreacted holographic model of a $1+1$ dimensional $p$ wave superconductor across the phase transition. For a given temperature, the system goes to a superconducting phase beyond a critical value of the charge density. The entanglement entropy, considered as a function of the charge density at a given temperature, has a cusp at the critical point. In addition, we find that there are three different behaviors in the condensed phase, depending on the subsystem size. For a subsystem size $l$ smaller than a critical size $l_{c1}$, entanglement entropy continues to increase as a function of the charge density as we cross the phase transition. When $l$ lies between $l_{c1}$ and another critical size $l_{c2}$ the entanglement entropy displays a non-monotonic behavior, while for $l > l_{c2}$ it decreases monotonically. At large charge densities entanglement entropy appears to saturate. The non-monotonic behavior leads to a novel phase diagram for this system.

## Full text

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## Figures

23 figures with captions in the complete paper: https://tomesphere.com/paper/1705.10392/full.md

## References

28 references — full list in the complete paper: https://tomesphere.com/paper/1705.10392/full.md

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Source: https://tomesphere.com/paper/1705.10392