E. Hodby scite author profile

We report the observation of the scissors mode of a Bose-Einstein condensed gas of 87Rb atoms in a magnetic trap, which gives direct evidence of superfluidity in this system. The scissors mode of oscillation is excited by a sudden rotation of the anisotropic trapping potential. For a gas above T(c) (normal fluid) we detect the occurrence of oscillations at two frequencies, with the lower frequency corresponding to the rigid body value of the moment of inertia. Well below T(c) the condensate oscillates at a single frequency, without damping, as expected for a superfluid.

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Vortex Nucleation in Bose-Einstein Condensates in an Oblate, Purely Magnetic Potential

Hodby

et al. 2001

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Very-high-precision bound-state spectroscopy near a85RbFeshbach resonance

et al. 2003

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We precisely measured the binding energy (ǫ bind ) of a molecular state near the Feshbach resonance in a 85 Rb Bose-Einstein condensate (BEC). Rapid magnetic field pulses induced coherent atommolecule oscillations in the BEC. We measured the oscillation frequency as a function of B-field and fit the data to a coupled-channels model. Our analysis constrained the Feshbach resonance position [155.041(18) G], width [10.71(2) G], and background scattering length [-443(3) a0] and yielded new values for vDS, vDT , and C6. These results improved our estimate for the stability condition of an attractive BEC. We also found evidence for a mean-field shift to ǫ bind .

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Ultracold Molecule Production via a Resonant Oscillating Magnetic Field

2005

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A novel atom-molecule conversion technique has been investigated. Ultracold 85Rb atoms sitting in a dc magnetic field near the 155 G Feshbach resonance are associated by applying a small sinusoidal oscillation to the magnetic field. There is resonant atom to molecule conversion when the modulation frequency closely matches the molecular binding energy. We observe that the atom to molecule conversion efficiency depends strongly on the frequency, amplitude, and duration of the applied modulation and on the phase space density of the sample. This technique offers high conversion efficiencies without the necessity of crossing or closely approaching the Feshbach resonance and allows precise spectroscopic measurements. Efficiencies of 55% have been observed for pure Bose-Einstein condensates.

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E. Hodby

Observation of the Scissors Mode and Evidence for Superfluidity of a Trapped Bose-Einstein Condensed Gas

Vortex Nucleation in Bose-Einstein Condensates in an Oblate, Purely Magnetic Potential

Very-high-precision bound-state spectroscopy near a85RbFeshbach resonance

Ultracold Molecule Production via a Resonant Oscillating Magnetic Field

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