2015
DOI: 10.1103/physreva.91.011603
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Chromium dipolar Fermi sea

Abstract: We report on the production of a degenerate Fermi gas of 53 Cr atoms, polarized in the state F=9/2, mF = −9/2, by sympathetic cooling with bosonic S=3, mS = −3 52 Cr atoms. We load in an optical dipole trap 3 ×10 4 53 Cr atoms with 10 6 52 Cr atoms. Despite this initial small number of fermionic atoms, we reach a final temperature of T ≃ 0.6 × T f (Fermi temperature), with up to 10 3 53 Cr atoms. This surprisingly efficient evaporation stems from an inter-isotope scattering length |aBF | = 85(±10) aB (Bohr ra… Show more

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Cited by 58 publications
(55 citation statements)
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“…Within this setup, experimentalists were able to observe how the dynamics of correlation spreading after a quantum quench is modified by the long-range interactions with respect to the case of ultracold neutral atoms interacting via a contact potential [6]. Within the context of ultracold neutral gases several groups have attained the quantum degeneracy of atoms possessing a large intrinsic magnetic moment, namely fermionic and bosonic isotopes of Cr [7][8][9], Dy [10,11] and Er [12,13], and they were able to observe the coherent spin-exchange dynamics in these systems, induced by the large dipole-dipole (1/r 3 ) interaction [8,14]. Moreover infinite-range cavity-mediated interactions in a Bose-Einstein condensate have been experimentally demonstrated [15,16], leading to the spontaneous formation of long-range ordered phases (solid and supersolid).…”
Section: Introductionmentioning
confidence: 99%
“…Within this setup, experimentalists were able to observe how the dynamics of correlation spreading after a quantum quench is modified by the long-range interactions with respect to the case of ultracold neutral atoms interacting via a contact potential [6]. Within the context of ultracold neutral gases several groups have attained the quantum degeneracy of atoms possessing a large intrinsic magnetic moment, namely fermionic and bosonic isotopes of Cr [7][8][9], Dy [10,11] and Er [12,13], and they were able to observe the coherent spin-exchange dynamics in these systems, induced by the large dipole-dipole (1/r 3 ) interaction [8,14]. Moreover infinite-range cavity-mediated interactions in a Bose-Einstein condensate have been experimentally demonstrated [15,16], leading to the spontaneous formation of long-range ordered phases (solid and supersolid).…”
Section: Introductionmentioning
confidence: 99%
“…1. Furthermore, ultracold atomic gases of fully polarized fermions are readily available in experiment [45][46][47] , and allow to avoid dealing with complex spin preparation protocols and dipolar relaxation effects between spin components that modifies the initial spin preparation [68][69][70][71][72][73][74][75][76] . The model's Hamiltonian is given by:…”
Section: Dipolar Fermions On An Optical Latticementioning
confidence: 99%
“…We treat the interaction with this bath using the Fermi golden rule approach. For quantitative predictions, we consider in section 4 a 1D spin chain made of alkali atoms (for which inter-atomic dipole-dipole interactions can safely be neglected compared to superexchange energies), which interact via dipole-dipole interactions with a bath of a highly dipolar species such as Dy, Er, or Cr [39][40][41][42][43][44]. We find that for realistic experimental parameters, the spin chain thermalizes close to its highly entangled (singlet) ground state in a few seconds.…”
Section: Introductionmentioning
confidence: 99%