Litcius/Paper detail

Collective Excitations and Nonequilibrium Phase Transition in Dissipative Fermionic Superfluids

Kazuki Yamamoto, Masaya Nakagawa, Naoto Tsuji, Masahito Ueda, Norio Kawakami

2021Physical Review Letters77 citationsDOIOpen Access PDF

Abstract

We predict a new mechanism to induce collective excitations and a nonequilibrium phase transition of fermionic superfluids via a sudden switch on of two-body loss, for which we extend the BCS theory to fully incorporate a change in particle number. We find that a sudden switch on of dissipation induces an amplitude oscillation of the superfluid order parameter accompanied by a chirped phase rotation as a consequence of particle loss. We demonstrate that when dissipation is introduced to one of the two superfluids coupled via a Josephson junction, it gives rise to a nonequilibrium dynamical phase transition characterized by the vanishing dc Josephson current. The dissipation-induced collective modes and nonequilibrium phase transition can be realized with ultracold fermionic atoms subject to inelastic collisions.

Topics & Concepts

PhysicsSuperfluidityNon-equilibrium thermodynamicsDissipative systemDissipationPhase transitionQuasiparticleCondensed matter physicsOscillation (cell signaling)Josephson effectPhase (matter)Quantum mechanicsSuperconductivityBiologyGeneticsCold Atom Physics and Bose-Einstein CondensatesStrong Light-Matter InteractionsQuantum, superfluid, helium dynamics
Collective Excitations and Nonequilibrium Phase Transition in Dissipative Fermionic Superfluids | Litcius