# Dynamical BCS theory of a two-dimensional attractive Fermi gas:   effective interactions from Quantum Monte Carlo calculations

**Authors:** Ettore Vitali, Jimmy Gonzalez Nunez

arXiv: 1905.05737 · 2019-08-27

## TL;DR

This paper combines dynamical BCS theory with Quantum Monte Carlo data to accurately compute density-density correlations in a two-dimensional attractive Fermi gas across different interaction regimes, including the BEC-BCS crossover.

## Contribution

It introduces a hybrid approach that uses dynamical BCS theory validated by Quantum Monte Carlo results to study real-time dynamics in many-body fermionic systems.

## Key findings

- Validated dynamical BCS predictions with Quantum Monte Carlo data.
- Provided quantitative correlation results across interaction strengths.
-  Demonstrated the potential of combined methods for studying many-body dynamics.

## Abstract

The primary work presented in this paper focuses on the calculation of density-density dynamical correlations in an attractive two dimensional Fermi gas in several physically interesting regimes, including the strongly correlated BEC-BCS crossover regime. We use state-of-the-art dynamical BCS theory and we address the possibility to renormalize the interaction strength, using unbiased Quantum Monte Carlo results as an asset to validate the predictions. We propose that a suitable interplay between dynamical BCS theory, which is computationally very cheap and yields results directly in real time domain, and Quantum Monte Carlo methods, which are exact but way more demanding and limited to imaginary time domain, can be a very promising idea to study dynamics in many body systems. We illustrate the idea and provide quantitative results for a few values of the interaction strength in the cold gas.

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/1905.05737/full.md

## References

16 references — full list in the complete paper: https://tomesphere.com/paper/1905.05737/full.md

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Source: https://tomesphere.com/paper/1905.05737