Trapping and cooling fermionic atoms into Mott and néel states

Lorenzo De Leo; Corinna Kollath; Antoine Georges; Michel Ferrero; Olivier Parcollet

doi:10.1103/PhysRevLett.101.210403

Trapping and cooling fermionic atoms into Mott and néel states

Lorenzo De Leo
, Corinna Kollath
, Antoine Georges
, Michel Ferrero
, Olivier Parcollet

Research output: Contribution to journal › Article › peer-review

Abstract

We perform a theoretical study of a fermionic gas with two hyperfine states confined to an optical lattice. We derive a generic state diagram as a function of interaction strength, particle number, and confining potential. We discuss the central density, the double occupancy, and their derivatives as probes for the Mott state, connecting our findings to the recent experiment of Jördens et al.. Using entropic arguments we compare two different strategies to reach the antiferromagnetic state in the presence of a trapping potential.

Original language	English
Article number	210403
Journal	Physical Review Letters
Volume	101
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevLett.101.210403
Publication status	Published - 21 Nov 2008

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10.1103/PhysRevLett.101.210403

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title = "Trapping and cooling fermionic atoms into Mott and n{\'e}el states",

abstract = "We perform a theoretical study of a fermionic gas with two hyperfine states confined to an optical lattice. We derive a generic state diagram as a function of interaction strength, particle number, and confining potential. We discuss the central density, the double occupancy, and their derivatives as probes for the Mott state, connecting our findings to the recent experiment of J{\"o}rdens et al.. Using entropic arguments we compare two different strategies to reach the antiferromagnetic state in the presence of a trapping potential.",

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AU - De Leo, Lorenzo

AU - Kollath, Corinna

AU - Georges, Antoine

AU - Ferrero, Michel

AU - Parcollet, Olivier

PY - 2008/11/21

Y1 - 2008/11/21

N2 - We perform a theoretical study of a fermionic gas with two hyperfine states confined to an optical lattice. We derive a generic state diagram as a function of interaction strength, particle number, and confining potential. We discuss the central density, the double occupancy, and their derivatives as probes for the Mott state, connecting our findings to the recent experiment of Jördens et al.. Using entropic arguments we compare two different strategies to reach the antiferromagnetic state in the presence of a trapping potential.

AB - We perform a theoretical study of a fermionic gas with two hyperfine states confined to an optical lattice. We derive a generic state diagram as a function of interaction strength, particle number, and confining potential. We discuss the central density, the double occupancy, and their derivatives as probes for the Mott state, connecting our findings to the recent experiment of Jördens et al.. Using entropic arguments we compare two different strategies to reach the antiferromagnetic state in the presence of a trapping potential.

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U2 - 10.1103/PhysRevLett.101.210403

DO - 10.1103/PhysRevLett.101.210403

M3 - Article

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VL - 101

JO - Physical Review Letters

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Trapping and cooling fermionic atoms into Mott and néel states

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