Pairing-gap, pseudogap, and no-gap phases in the radio-frequency spectra of a trapped unitary Li6 gas

P. Pieri; A. Perali; G.C. Strinati; S. Riedl; M.J. Wright; A. Altmeyer; C. Kohstall; E.R. Sánchez Guajardo; J. Hecker Denschlag; R. Grimm

doi:10.1103/PhysRevA.84.011608

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Pairing-gap, pseudogap, and no-gap phases in the radio-frequency spectra of a trapped unitary Li6 gas

Journal article

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Pairing-gap, pseudogap, and no-gap phases in the radio-frequency spectra of a trapped unitary Li6 gas

P. Pieri, A. Perali, G.C. Strinati, S. Riedl, M.J. Wright, A. Altmeyer, C. Kohstall, E.R. Sánchez Guajardo, J. Hecker Denschlag and R. Grimm

PHYSICAL REVIEW A covering atomic, molecular, and optical physics and quantum information, Vol.84(1), pp.011608-1-011-6408

2011

DOI: https://doi.org/10.1103/PhysRevA.84.011608

Abstract

Pairing correlations (Nuclear physics)

High temperature superconductivity

Physics

Radio frequency spectra of a trapped unitary 6Li gas are reported and analyzed in terms of a theoretical approach that includes both final-state and trap effects. The different strength of the final-state interaction across the trap is crucial for evidencing two main peaks associated with two distinct phases residing in different trap regions. These are the pairing-gap and pseudo-gap phases below the critical temperature Tc, which evolve into the pseudo-gap and no-gap phases above Tc. In this way, a long standing puzzle about the interpretation of rf spectra for 6Li in a trap is solved.

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Title: Pairing-gap, pseudogap, and no-gap phases in the radio-frequency spectra of a trapped unitary Li6 gas
Creators: P. Pieri - Università di Camerino
A. Perali - Università di Camerino
G.C. Strinati - Università di Camerino
S. Riedl - Institute for Quantum Optics and Quantum Information Innsbruck
M.J. Wright - Universität Innsbruck
A. Altmeyer - Institute for Quantum Optics and Quantum Information Innsbruck
C. Kohstall - Universität Innsbruck
E.R. Sánchez Guajardo
J. Hecker Denschlag
R. Grimm - Institute for Quantum Optics and Quantum Information Innsbruck
Publication Details: PHYSICAL REVIEW A covering atomic, molecular, and optical physics and quantum information, Vol.84(1), pp.011608-1-011-6408
Academic Unit: Adelphi University; College of Arts and Sciences; Physics
Resource Type: Journal article
DOI: https://doi.org/10.1103/PhysRevA.84.011608
Record Identifier: 991004314893306266