Spin Diffusion in Trapped Clouds of Cold Atoms with Resonant Interactions

Georg Morten Bruun; C. J. Pethick

doi:10.1103/PhysRevLett.107.255302

Spin Diffusion in Trapped Clouds of Cold Atoms with Resonant Interactions

Georg Morten Bruun, C. J. Pethick

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18 Citationer (Scopus)

Abstract

We show that puzzling recent experimental results on spin diffusion in a strongly interacting atomic gas may be understood in terms of the predicted spin diffusion coefficient for a generic strongly interacting system. Three important features play a central role: (a) Fick's law for diffusion must be modified to allow for the trapping potential; (b) the diffusion coefficient is inhomogeneous, due to the density variations in the cloud; and (c) the diffusion approximation fails in the outer parts of the cloud, where the mean free path is long.

Originalsprog	Engelsk
Tidsskrift	Physical Review Letters
Vol/bind	107
Udgave nummer	25
Sider (fra-til)	255302
ISSN	0031-9007
DOI	https://doi.org/10.1103/PhysRevLett.107.255302
Status	Udgivet - 14 dec. 2011

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10.1103/PhysRevLett.107.255302

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N2 - We show that puzzling recent experimental results on spin diffusion in a strongly interacting atomic gas may be understood in terms of the predicted spin diffusion coefficient for a generic strongly interacting system. Three important features play a central role: (a) Fick's law for diffusion must be modified to allow for the trapping potential; (b) the diffusion coefficient is inhomogeneous, due to the density variations in the cloud; and (c) the diffusion approximation fails in the outer parts of the cloud, where the mean free path is long.

AB - We show that puzzling recent experimental results on spin diffusion in a strongly interacting atomic gas may be understood in terms of the predicted spin diffusion coefficient for a generic strongly interacting system. Three important features play a central role: (a) Fick's law for diffusion must be modified to allow for the trapping potential; (b) the diffusion coefficient is inhomogeneous, due to the density variations in the cloud; and (c) the diffusion approximation fails in the outer parts of the cloud, where the mean free path is long.

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DO - 10.1103/PhysRevLett.107.255302

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JO - Physical Review Letters

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Spin Diffusion in Trapped Clouds of Cold Atoms with Resonant Interactions

Abstract

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