# Entanglement in disordered superfluids: the impact of density,   interaction and harmonic confinement on the Superconductor-Insulator   transition

**Authors:** G. A. Canella, V. V. Fran\c{c}a

arXiv: 1903.04680 · 2020-04-08

## TL;DR

This study explores how density, interaction, and harmonic confinement influence the superfluid-insulator transition in disordered fermionic superfluids, revealing the conditions for full localization and the effects of confinement.

## Contribution

It provides analytical relations for the critical concentration at which full localization occurs, considering disorder strength and confinement effects in the Hubbard model.

## Key findings

- Critical concentration for full localization is independent of interaction.
- A minimum disorder strength is required for full localization.
- Strong harmonic confinement can alter the localization state.

## Abstract

We investigate the influence of density, interaction and harmonic confinement on the superfluid to insulator transition (SIT) in disordered fermionic superfluids described by the one-dimensional Hubbard model. We quantify the ground-state single-site entanglement via density-functional theory calculations of the linear entropy. We analyze the critical concentration $C_C$ at which the fully-localized state $-$ a special type of localization, with null entanglement $-$ emerges. We find that $C_C$ is independent on the interaction, but demands a minimum disorder strength to occur. We then derive analytical relations for $C_C$ as a function of the average particle density for attractive and repulsive disorder. Our results reveal that weak harmonic confinement does not impact the properties of the fully-localized state, which occurs at the same $C_C$, but stronger confinements may lead the system from the fully-localized state to the ordinary localization.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1903.04680/full.md

## References

52 references — full list in the complete paper: https://tomesphere.com/paper/1903.04680/full.md

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Source: https://tomesphere.com/paper/1903.04680