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Rapid ramps across the BEC-BCS crossover: a novel route to measuring the superfluid gap

We investigate the response of superfluid Fermi gases to rapid changes of the three-dimensional s-wave scattering length a by solving the time-dependent Bogoliubov-de Gennes equations. In general the magnitude of the order parameter |Δ| performs oscillations, which are sometimes called the "Higgs" mode, with the angular frequency 2 Δ_{gap}/ \hbar, where Δ_{gap} is the gap in the spectrum of fermionic excitations. Firstly, we excite the oscillations with a linear ramp of 1/a and study the evolution of |Δ|. Secondly, we continously drive the system with a sinusoidal modulation of 1/a. In the first case, the oscillations in |Δ| damp according to a power law. In the second case, the continued driving causes revivals in the oscillations. In both cases, the excitation of the oscillations causes a reduction in the time-averaged value of |Δ|. We propose two experimental protocols, based around the two approaches, to measure the frequency and damping of the oscillations, and hence Δ_{gap}.

preprint2012arXivOpen access
R. G. ScottF. DalfovoL. P. PitaevskiiS. Stringari
cond-mat.quant-gas
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Open access4 authors1 topic
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R. G. ScottF. DalfovoL. P. PitaevskiiS. Stringari

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