1999
DOI: 10.1007/s100530050588
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Collective excitations of a degenerate Fermi vapour in a magnetic trap

Abstract: We evaluate the small-amplitude excitations of a spin-polarized vapour of Fermi atoms confined inside a harmonic trap. The dispersion law ω = ω f [l + 4n(n + l + 2)/3] 1/2 is obtained for the vapour in the collisional regime inside a spherical trap of frequency ω f , with n the number of radial nodes and l the orbital angular momentum. The low-energy excitations are also treated in the case of an axially symmetric harmonic confinement. The collisionless regime is discussed with main reference to a Landau-Boltz… Show more

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Cited by 96 publications
(166 citation statements)
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“…It may also be possible to consider the spontaneous symmetry breaking in a degenerate fermion gas filling a dual-core trap, using a relatively simple description of the fermion gas based on the Thomas-Fermi (alias mean-field-hydrodynamic) approximation, which was developed, for various settings, in Refs. [35].…”
Section: Discussionmentioning
confidence: 99%
“…It may also be possible to consider the spontaneous symmetry breaking in a degenerate fermion gas filling a dual-core trap, using a relatively simple description of the fermion gas based on the Thomas-Fermi (alias mean-field-hydrodynamic) approximation, which was developed, for various settings, in Refs. [35].…”
Section: Discussionmentioning
confidence: 99%
“…The nonlinear coupling results from inter-atomic collisions while the linear coupling accounts for spin state interconversion usually induced by a spinflipping resonant electromagnetic wave [296]. In the case of fermionic mixtures one needs to replace the self-interacting nonlinear terms by g n,n |ψ n | 4/3 ψ n [297][298][299]. In the absence of losses (σ n = 0), the total number of atoms is conserved:…”
Section: Spinor/multicomponent Condensatesmentioning
confidence: 99%
“…The dynamical behaviour that we shall discuss in Sect.3 will therefore correspond to a collisional regime [20].…”
Section: Equilibrium Density Profiles and Phase Diagrammentioning
confidence: 99%