Non-destructive shadowgraph imaging of ultracold atoms

Carlos C. N. Kuhn; Chunhua Wei; John D. Close; Kyle S. Hardman; Mahasen A. Sooriyabandara; Manju Perumbil; Michael R. Hush; Nicholas P. Robins; Patrick J. Everitt; Paul B. Wigley

arxiv: 1601.04425 · v2 · pith:674WZXLTnew · submitted 2016-01-18 · ⚛️ physics.atom-ph · cond-mat.quant-gas· quant-ph

Non-destructive shadowgraph imaging of ultracold atoms

Paul B. Wigley , Patrick J. Everitt , Kyle S. Hardman , Michael R. Hush , Chunhua Wei , Mahasen A. Sooriyabandara , Manju Perumbil , John D. Close

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Nicholas P. Robins Carlos C. N. Kuhn

This is my paper

classification ⚛️ physics.atom-ph cond-mat.quant-gasquant-ph

keywords imagingcapablenon-destructivesignalsystemtechniqueabsorptionapplication

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An imaging system is presented that is capable of far-detuned non-destructive imaging of a Bose-Einstein condensate with the signal proportional to the second spatial derivative of the density. Whilst demonstrated with application to $^{85}\text{Rb}$, the technique generalizes to other atomic species and is shown to be capable of a signal to noise of ${\sim}25$ at $1$GHz detuning with $100$ in-trap images showing no observable heating or atom loss. The technique is also applied to the observation of individual trajectories of stochastic dynamics inaccessible to single shot imaging. Coupled with a fast optical phase lock loop, the system is capable of dynamically switching to resonant absorption imaging during the experiment.

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Non-destructive shadowgraph imaging of ultracold atoms

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