Disordered ultracold atomic gases in optical lattices: A case study of Fermi-Bose mixtures

V. Ahufinger; L. Sanchez-Palencia; A. Kantian; A. Sanpera; M. Lewenstein

doi:10.1103/PhysRevA.72.063616

Disordered ultracold atomic gases in optical lattices: A case study of Fermi-Bose mixtures

V. Ahufinger
, L. Sanchez-Palencia
, A. Kantian
, A. Sanpera
, M. Lewenstein

University of São Paulo
Leibniz Universität Hannover
Laboratoire Charles Fabry
IMBA Institute of Molecular Biotechnology of the Austrian Academy of Sciences
University of Innsbruck
Pompeu Fabra University (UPF)
Mediterranean Technology Park

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We present a review of properties of ultracold atomic Fermi-Bose mixtures in inhomogeneous and random optical lattices. In the strong interacting limit and at very low temperatures, fermions form, together with bosons or bosonic holes, composite fermions. Composite fermions behave as a spinless interacting Fermi gas, and in the presence of local disorder they interact via random couplings and feel effective random local potential. This opens a wide variety of possibilities of realizing various kinds of ultracold quantum disordered systems. In this paper we review these possibilities, discuss the accessible quantum disordered phases, and methods for their detection. The discussed quantum phases include Fermi glasses, quantum spin glasses, "dirty" superfluids, disordered metallic phases, and phases involving quantum percolation.

langue originale	Anglais
Numéro d'article	063616
journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	72
Numéro de publication	6
Les DOIs	https://doi.org/10.1103/PhysRevA.72.063616
état	Publié - 1 déc. 2005
Modification externe	Oui

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10.1103/PhysRevA.72.063616

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abstract = "We present a review of properties of ultracold atomic Fermi-Bose mixtures in inhomogeneous and random optical lattices. In the strong interacting limit and at very low temperatures, fermions form, together with bosons or bosonic holes, composite fermions. Composite fermions behave as a spinless interacting Fermi gas, and in the presence of local disorder they interact via random couplings and feel effective random local potential. This opens a wide variety of possibilities of realizing various kinds of ultracold quantum disordered systems. In this paper we review these possibilities, discuss the accessible quantum disordered phases, and methods for their detection. The discussed quantum phases include Fermi glasses, quantum spin glasses, {"}dirty{"} superfluids, disordered metallic phases, and phases involving quantum percolation.",

author = "V. Ahufinger and L. Sanchez-Palencia and A. Kantian and A. Sanpera and M. Lewenstein",

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AU - Ahufinger, V.

AU - Sanchez-Palencia, L.

AU - Kantian, A.

AU - Sanpera, A.

AU - Lewenstein, M.

PY - 2005/12/1

Y1 - 2005/12/1

N2 - We present a review of properties of ultracold atomic Fermi-Bose mixtures in inhomogeneous and random optical lattices. In the strong interacting limit and at very low temperatures, fermions form, together with bosons or bosonic holes, composite fermions. Composite fermions behave as a spinless interacting Fermi gas, and in the presence of local disorder they interact via random couplings and feel effective random local potential. This opens a wide variety of possibilities of realizing various kinds of ultracold quantum disordered systems. In this paper we review these possibilities, discuss the accessible quantum disordered phases, and methods for their detection. The discussed quantum phases include Fermi glasses, quantum spin glasses, "dirty" superfluids, disordered metallic phases, and phases involving quantum percolation.

AB - We present a review of properties of ultracold atomic Fermi-Bose mixtures in inhomogeneous and random optical lattices. In the strong interacting limit and at very low temperatures, fermions form, together with bosons or bosonic holes, composite fermions. Composite fermions behave as a spinless interacting Fermi gas, and in the presence of local disorder they interact via random couplings and feel effective random local potential. This opens a wide variety of possibilities of realizing various kinds of ultracold quantum disordered systems. In this paper we review these possibilities, discuss the accessible quantum disordered phases, and methods for their detection. The discussed quantum phases include Fermi glasses, quantum spin glasses, "dirty" superfluids, disordered metallic phases, and phases involving quantum percolation.

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JO - Physical Review A - Atomic, Molecular, and Optical Physics

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Disordered ultracold atomic gases in optical lattices: A case study of Fermi-Bose mixtures

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