Abstract
The recent experimental realisation of Bose–Fermi superfluid mixtures of dilute ultracold atomic gases has opened new perspectives in the study of quantum many-body systems. Depending on the values of the scattering lengths and the amount of bosons and fermions, a uniform Bose–Fermi mixture is predicted to exhibit a fully mixed phase, a fully separated phase or, in addition, a purely fermionic phase coexisting with a mixed phase. The occurrence of this intermediate configuration has interesting consequences when the system is nonuniform. In this work we theoretically investigate the case of solitonic solutions of coupled Bogoliubov–de Gennes and Gross–Pitaevskii equations for the fermionic and bosonic components, respectively. We show that, in the partially separated phase, a dark soliton in Fermi superfluid is accompanied by a broad bosonic component in the soliton, forming a dark–bright soliton which keeps full spatial coherence.
Highlights
A long standing problem in the context of quantum fluids is the description of mixtures composed of two kinds of interacting superfluids belonging to different statistics
We theoretically investigate the analogue dark–bright soliton in a Bose–Fermi superfluid mixture, the main difference between the two cases being that the Bose–Fermi phase diagram is known to admit, in addition to a fully mixed phase and a fully separated phase, a third phase consisting of pure fermions in equilibrium with a mixture of fermions and bosons
Having discussed the ground state as a test case, let us concentrate on the second column of figure 1, where we show the density profiles in the presence of a dark soliton in the Fermi component
Summary
Original content from this Abstract work may be used under The recent experimental realisation of Bose–Fermi superfluid mixtures of dilute ultracold atomic the terms of the Creative Commons Attribution 3.0 gases has opened new perspectives in the study of quantum many-body systems. The occurrence of this intermediate configuration has the work, journal citation interesting consequences when the system is nonuniform. In the partially separated phase, a dark soliton in Fermi superfluid is accompanied by a broad bosonic component in the soliton, forming a dark–bright soliton which keeps full spatial coherence
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