Josephson effect at finite temperature along the BCS-BEC crossover

TL;DR

This paper systematically studies how the Josephson effect varies with temperature and coupling strength across the BCS-BEC crossover, connecting low-temperature bosonic and high-temperature fermionic regimes.

Contribution

It provides a comprehensive analysis of the temperature dependence of Josephson characteristics across the BCS-BEC crossover, bridging theoretical models and experimental data.

Findings

Evolution of current-phase characteristics with temperature and barrier shape

Identification of coherence and pair penetration lengths

Temperature dependence of the Landau criterion

Abstract

The Josephson current-phase characteristics, that arise when a supercurrent flows across two fermionic superfluids separated by a potential barrier, can be controlled by varying either the inter-particle coupling or the temperature. While the coupling dependence has been addressed in detail both theoretically and experimentally for an attractive Fermi gas undergoing the BCS-BEC crossover, a corresponding study of the temperature dependence of the Josephson characteristics is still lacking in this context. Here, we investigate the combined coupling and temperature dependence of the Josephson characteristics in a systematic way for a wide set of barriers, within ranges of height and width that can be experimentally explored. Our study smoothly connects the two limiting cases, of non-overlapping composite bosons at low temperature described by the Gross-Piatevskii equation, and of strongly overlapping Cooper pairs near the critical temperature described by the Ginzburg-Landau equation. In this way, we are able to explore several interesting effects related to how the current-phase characteristics evolve along the BCS-BEC crossover as a function of temperature and of barrier shape. These effects include the coherence length outside the barrier and the pair penetration length inside the barrier (which is related to the proximity effect), as well as the temperature evolution of the Landau criterion in the limit of a vanishingly small barrier. A comparison is also presented between the available experimental data for the critical current and our theoretical results over a wide range of couplings along the BCS-BEC crossover.