Dipole oscillations of a Fermi gas in a disordered trap: Damping and localization

L. Pezzè; B. Hambrecht; L. Sanchez-Palencia

doi:10.1209/0295-5075/88/30009

Dipole oscillations of a Fermi gas in a disordered trap: Damping and localization

L. Pezzè
, B. Hambrecht
, L. Sanchez-Palencia

Centre national de la recherche scientifique

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

Abstract

We theoretically study the dipole oscillations of an ideal Fermi gas in a disordered trap. We show that even weak disorder induces strong damping of the oscillations and we identify a metal-insulator crossover. For very weak disorder, we show that damping results from a dephasing effect related to weak random perturbations of the energy spectrum. For increasing disorder, we show that the Fermi gas crosses over to an insulating regime characterized by strong damping due to the proliferation of localized states.

Original language	English
Article number	30009
Journal	EPL
Volume	88
Issue number	3
DOIs	https://doi.org/10.1209/0295-5075/88/30009
Publication status	Published - 1 Nov 2009

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title = "Dipole oscillations of a Fermi gas in a disordered trap: Damping and localization",

abstract = "We theoretically study the dipole oscillations of an ideal Fermi gas in a disordered trap. We show that even weak disorder induces strong damping of the oscillations and we identify a metal-insulator crossover. For very weak disorder, we show that damping results from a dephasing effect related to weak random perturbations of the energy spectrum. For increasing disorder, we show that the Fermi gas crosses over to an insulating regime characterized by strong damping due to the proliferation of localized states.",

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N2 - We theoretically study the dipole oscillations of an ideal Fermi gas in a disordered trap. We show that even weak disorder induces strong damping of the oscillations and we identify a metal-insulator crossover. For very weak disorder, we show that damping results from a dephasing effect related to weak random perturbations of the energy spectrum. For increasing disorder, we show that the Fermi gas crosses over to an insulating regime characterized by strong damping due to the proliferation of localized states.

AB - We theoretically study the dipole oscillations of an ideal Fermi gas in a disordered trap. We show that even weak disorder induces strong damping of the oscillations and we identify a metal-insulator crossover. For very weak disorder, we show that damping results from a dephasing effect related to weak random perturbations of the energy spectrum. For increasing disorder, we show that the Fermi gas crosses over to an insulating regime characterized by strong damping due to the proliferation of localized states.

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DO - 10.1209/0295-5075/88/30009

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SN - 0295-5075

VL - 88

JO - EPL

JF - EPL

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Dipole oscillations of a Fermi gas in a disordered trap: Damping and localization

Abstract

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