The Interaction Enhanced Imaging technique allows to detect the spatial distribution of strongly interacting impurities embedded within a gas of background atoms used as a contrast medium [1]. Here we present a detailed study of this technique, applied to detect Rydberg P states. We experimentally realize fast and efficient three-photon excitation of P states, optimized according to the results of a theoretical effective two-level model. Few Rydberg P-state atoms, prepared in a small cloud with dimensions comparable to the blockade radius, are detected with a good sensitivity by averaging over 50 shots. The main aspects of the technique are described with a hard-sphere model, finding good agreement with experimental data. This work paves the way to a non-destructive optical detection of single Rydberg atoms with high spatial and temporal resolution.

Interaction Enhanced Imaging of Rydberg P states Preparation and detection of Rydberg atoms for engineering long-range interactions / Gavryusev, V; Ferreira-Cao, M; Kekic, A; Zurn, G; Signoles, A. - In: THE EUROPEAN PHYSICAL JOURNAL. SPECIAL TOPICS. - ISSN 1951-6355. - ELETTRONICO. - 225:(2016), pp. 2863-2889. [10.1140/epjst/e2015-50339-8]

Interaction Enhanced Imaging of Rydberg P states Preparation and detection of Rydberg atoms for engineering long-range interactions

Gavryusev, V
;
2016

Abstract

The Interaction Enhanced Imaging technique allows to detect the spatial distribution of strongly interacting impurities embedded within a gas of background atoms used as a contrast medium [1]. Here we present a detailed study of this technique, applied to detect Rydberg P states. We experimentally realize fast and efficient three-photon excitation of P states, optimized according to the results of a theoretical effective two-level model. Few Rydberg P-state atoms, prepared in a small cloud with dimensions comparable to the blockade radius, are detected with a good sensitivity by averaging over 50 shots. The main aspects of the technique are described with a hard-sphere model, finding good agreement with experimental data. This work paves the way to a non-destructive optical detection of single Rydberg atoms with high spatial and temporal resolution.
2016
225
2863
2889
Goal 9: Industry, Innovation, and Infrastructure
Gavryusev, V; Ferreira-Cao, M; Kekic, A; Zurn, G; Signoles, A
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1308430
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