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Literature DB >> 17995152

Phase diagram for a Bose-Einstein condensate moving in an optical lattice.

Jongchul Mun¹, Patrick Medley, Gretchen K Campbell, Luis G Marcassa, David E Pritchard, Wolfgang Ketterle.

Abstract

The stability of superfluid currents in a system of ultracold bosons was studied using a moving optical lattice. Superfluid currents in a very weak lattice become unstable when their momentum exceeds 0.5 recoil momentum. Superfluidity vanishes already for zero momentum as the lattice deep reaches the Mott insulator (MI) phase transition. We study the phase diagram for the disappearance of superfluidity as a function of momentum and lattice depth between these two limits. Our phase boundary extrapolates to the critical lattice depth for the superfluid-to-MI transition with 2% precision. When a one-dimensional gas was loaded into a moving optical lattice a sudden broadening of the transition between stable and unstable phases was observed.

Year: 2007 PMID： 17995152 DOI： 10.1103/PhysRevLett.99.150604

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

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Cited

6 in total

Phase diagram for a Bose-Einstein condensate moving in an optical lattice.

1. Pinning quantum phase transition for a Luttinger liquid of strongly interacting bosons.

Review 2. Quantum phase slips: from condensed matter to ultracold quantum gases.

3. Superfluid flow above the critical velocity.

4. Critical points of the three-dimensional Bose-Hubbard model from on-site atom number fluctuations.

5. Noise Sensitivities for an Atom Shuttled by a Moving Optical Lattice via Shortcuts to Adiabaticity.

6. Velocity-dependent quantum phase slips in 1D atomic superfluids.