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Literature DB >> 23683212

Reaching fractional quantum Hall states with optical flux lattices.

Abstract

We present a robust scheme by which fractional quantum Hall states of bosons can be achieved for ultracold atomic gases. We describe a new form of optical flux lattice, suitable for commonly used atomic species with ground state angular momentum J(g) = 1, for which the lowest energy band is topological and nearly dispersionless. Through exact diagonalization studies, we show that, even for moderate interactions, the many-body ground states consist of bosonic fractional quantum Hall states, including the Laughlin state and the Moore-Read (Pfaffian) state. These phases are shown to have energy gaps that are larger than temperature scales achievable in ultracold gases.

Year: 2013 PMID： 23683212 DOI： 10.1103/PhysRevLett.110.185301

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

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Cited

9 in total

Reaching fractional quantum Hall states with optical flux lattices.

1. Quantum spin dynamics with pairwise-tunable, long-range interactions.

2. Synthetic Landau levels for photons.

3. Rashba realization: Raman with RF.

4. Topological bands for ultracold atoms.

5. Probing topology by "heating": Quantized circular dichroism in ultracold atoms.

6. Dynamical time-reversal symmetry breaking and photo-induced chiral spin liquids in frustrated Mott insulators.

7. Measuring topology from dynamics by obtaining the Chern number from a linking number.

8. Topological features without a lattice in Rashba spin-orbit coupled atoms.

9. Geometric stability of topological lattice phases.