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Quasiparticle lifetime in ultracold Fermionic mixtures with density and mass imbalance

Quasiparticle lifetime in ultracold Fermionic mixtures with density and mass imbalance
Quasiparticle lifetime in ultracold Fermionic mixtures with density and mass imbalance
We show that atomic Fermi mixtures with density and mass imbalance exhibit a rich diversity of scaling laws for the quasiparticle decay rate beyond the quadratic energy and temperature dependence of conventional Fermi liquids. For certain densities and mass ratios, the decay rate is linear, whereas in other cases, it exhibits a plateau. Remarkably, this plateau extends from the deeply degenerate to the high temperature classical regime of the light species. Many of these scaling laws are analogous to what is found in very different systems, including dirty metals, liquid metals, and high temperature plasmas. The Fermi mixtures can in this sense span a whole range of seemingly diverse and separate physical systems. Our results are derived in the weakly interacting limit, making them quantitatively reliable. The different regimes can be detected with radio-frequency spectroscopy.
145301-[5pp]
Lan, Zhihao
003078e8-2b5c-4e32-9ead-a6b511af08c8
Bruun, Georg M.
c5342bdb-4fd9-43d4-9032-6acff2e528c5
Lobo, Carlos
cde7843a-c00b-4242-a8cd-1abb2dfe0703
Lan, Zhihao
003078e8-2b5c-4e32-9ead-a6b511af08c8
Bruun, Georg M.
c5342bdb-4fd9-43d4-9032-6acff2e528c5
Lobo, Carlos
cde7843a-c00b-4242-a8cd-1abb2dfe0703

Lan, Zhihao, Bruun, Georg M. and Lobo, Carlos (2013) Quasiparticle lifetime in ultracold Fermionic mixtures with density and mass imbalance. Physical Review Letters, 111 (14), 145301-[5pp]. (doi:10.1103/PhysRevLett.111.145301).

Record type: Article

Abstract

We show that atomic Fermi mixtures with density and mass imbalance exhibit a rich diversity of scaling laws for the quasiparticle decay rate beyond the quadratic energy and temperature dependence of conventional Fermi liquids. For certain densities and mass ratios, the decay rate is linear, whereas in other cases, it exhibits a plateau. Remarkably, this plateau extends from the deeply degenerate to the high temperature classical regime of the light species. Many of these scaling laws are analogous to what is found in very different systems, including dirty metals, liquid metals, and high temperature plasmas. The Fermi mixtures can in this sense span a whole range of seemingly diverse and separate physical systems. Our results are derived in the weakly interacting limit, making them quantitatively reliable. The different regimes can be detected with radio-frequency spectroscopy.

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Published date: 2 October 2013
Organisations: Applied Mathematics

Identifiers

Local EPrints ID: 358287
URI: http://eprints.soton.ac.uk/id/eprint/358287
DOI: doi:10.1103/PhysRevLett.111.145301
PURE UUID: 8558824b-3048-48ba-adee-0586a6a3a583
ORCID for Carlos Lobo: ORCID iD orcid.org/0000-0001-7060-3905

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Date deposited: 09 Oct 2013 13:20
Last modified: 15 Mar 2024 03:32

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Contributors

Author: Zhihao Lan
Author: Georg M. Bruun
Author: Carlos Lobo ORCID iD

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