New Journal of Physics (Jan 2020)

Dynamical phase diagram of ultracold Josephson junctions

  • K Xhani,
  • L Galantucci,
  • C F Barenghi,
  • G Roati,
  • A Trombettoni,
  • N P Proukakis

DOI
https://doi.org/10.1088/1367-2630/abc8e4
Journal volume & issue
Vol. 22, no. 12
p. 123006

Abstract

Read online

We provide a complete study of the phase diagram characterising the distinct dynamical regimes emerging in a three-dimensional Josephson junction in an ultracold quantum gas. Considering trapped ultracold superfluids separated into two reservoirs by a barrier of variable height and width, we analyse the population imbalance dynamics following a variable initial population mismatch. We demonstrate that as the chemical potential difference is increased, the system transitions from Josephson plasma oscillations to either a dissipative (in the limit of low and narrow barriers) or a self-trapped regime (for large and wider barriers), with a crossover between the dissipative and the self-trapping regimes which we explore and characterize for the first time. This work, which extends beyond the validity of the standard two-mode model, connects the role of the barrier width, vortex rings and associated acoustic emission with different regimes of the superfluid dynamics across the junction, establishing a framework for its experimental observation, which is found to be within current experimental reach.

Keywords