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Preparation of one-dimensional chains and dense cold atomic clouds with a high numerical aperture four-lens system

Antoine Glicenstein, Giovanni Ferioli, Ludovic Brossard, Yvan R. P. Sortais, Daniel Barredo, Florence Nogrette, Igor Ferrier-Barbut, Antoine Browaeys

2021Physical review. A/Physical review, A22 citationsDOIOpen Access PDF

Abstract

We report the efficient and fast $(\ensuremath{\sim}2\phantom{\rule{0.16em}{0ex}}\mathrm{Hz})$ preparation of randomly loaded one-dimensional (1D) chains of individual $^{87}\mathrm{Rb}$ atoms and of dense atomic clouds trapped in optical tweezers using an upgraded experimental platform. This platform is designed for the study of atomic ensembles featuring either ordered or disordered distributions of the atomic positions. It is composed of two high-resolution optical systems perpendicular to each other, enhancing observation and manipulation capabilities. The setup includes a dynamically controllable telescope, which we use to vary the tweezer beam waist. A $\mathrm{\ensuremath{\Lambda}}$-enhanced gray molasses on the D1 line enhances the loading of the traps from a magneto-optical trap. Using these tools, we prepare chains of up to $\ensuremath{\sim}100$ atoms separated by $\ensuremath{\sim}1\phantom{\rule{0.16em}{0ex}}\ensuremath{\mu}\mathrm{m}$ by retroreflecting the tweezer light, hence producing a 1D optical lattice with strong transverse confinement. Dense atomic clouds with peak densities up to ${n}_{0}\ensuremath{\sim}{10}^{15}$ $\mathrm{atoms}/{\mathrm{cm}}^{3}$ are obtained by compression of an initial cloud. This high density results in interatomic distances smaller than $\ensuremath{\lambda}/(2\ensuremath{\pi})$ for the D2 optical transitions, making it ideal to study light-induced interactions in dense samples.

Topics & Concepts

Lens (geology)OpticsNumerical apertureAperture (computer memory)Materials sciencePhysicsWavelengthAcousticsCold Atom Physics and Bose-Einstein CondensatesQuantum optics and atomic interactionsQuantum Information and Cryptography
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