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Literature DB >> 27284663

Observation of Quantum Droplets in a Strongly Dipolar Bose Gas.

Igor Ferrier-Barbut¹, Holger Kadau¹, Matthias Schmitt¹, Matthias Wenzel¹, Tilman Pfau¹.

Abstract

Quantum fluctuations are the origin of genuine quantum many-body effects, and can be neglected in classical mean-field phenomena. Here, we report on the observation of stable quantum droplets containing ∼800 atoms that are expected to collapse at the mean-field level due to the essentially attractive interaction. By systematic measurements on individual droplets we demonstrate quantitatively that quantum fluctuations mechanically stabilize them against the mean-field collapse. We observe in addition the interference of several droplets indicating that this stable many-body state is phase coherent.

Year: 2016 PMID： 27284663 DOI： 10.1103/PhysRevLett.116.215301

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Observation of Quantum Droplets in a Strongly Dipolar Bose Gas.

1. Dynamical formation of a strongly correlated dark condensate of dipolar excitons.

2. Self-bound droplets of a dilute magnetic quantum liquid.

3. Atomic physics: A strange kind of liquid.

4. The low-energy Goldstone mode in a trapped dipolar supersolid.

5. Dynamics of quantum droplets in an external harmonic confinement.

6. Observation of Roton Mode Population in a Dipolar Quantum Gas.

7. Strongly interacting dipolar-polaritons.