High-Temperature Superfluidity of Fermionic Atoms in Optical Lattices

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12 November 2002

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 89 (22), 220407
https://doi.org/10.1103/physrevlett.89.220407

Abstract

Fermionic atoms confined in a potential created by standing wave light can undergo a phase transition to a superfluid state at a dramatically increased transition temperature. Depending upon carefully controlled parameters, a transition to a superfluid state of Cooper pairs, antiferromagnetic states or

d

-wave pairing states can be induced and probed under realistic experimental conditions. We describe an atomic physics experiment that can provide critical insight into the origin of high-temperature superconductivity in cuprates.

Keywords

Other Versions

Version 2, 2002-04-11, preprints

This publication has 25 references indexed in Scilit:

Two-Species Mixture of Quantum Degenerate Bose and Fermi Gases
Physical Review Letters, 2002
Cold atoms and quantum control
Nature, 2002
Resonance Superfluidity in a Quantum Degenerate Fermi Gas
Physical Review Letters, 2001
Quasipure Bose-Einstein Condensate Immersed in a Fermi Sea
Physical Review Letters, 2001
Prospect of creating a composite Fermi–Bose superfluid
Physics Letters A, 2001
Observation of Fermi Pressure in a Gas of Trapped Atoms
Science, 2001
Onset of Fermi Degeneracy in a Trapped Atomic Gas
Science, 1999
Observation of Feshbach resonances in a Bose–Einstein condensate
Nature, 1998
Superfluid state of atomic $^{6} Li$ in a magnetic trap
Physical Review A, 1997
Superfluidity of Spin-Polarized $^{6}$ Li
Physical Review Letters, 1996

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