I. I. Beterov, E. A. Yakshina, D. B. Tret'yakov, V. M. Èntin, U. Singh, Ya. V. Kudlaev, K. Yu. Mityanin, K. A. Panov, N. V. Al'yanova, I. I. Ryabtsev, “Trapping and detection of single rubidium atoms in an optical dipole trap using a long-focus objective lens”, Kvantovaya Elektronika, 2020, Volume 50, Number 6,Pages <nobr>543

This article is cited in 8 papers

Physics of ultra cold atoms and their applications

Trapping and detection of single rubidium atoms in an optical dipole trap using a long-focus objective lens

I. I. Beterov^abc, E. A. Yakshina^ab, D. B. Tret'yakov^ab, V. M. Èntin^ab, U. Singh^b, Ya. V. Kudlaev^b, K. Yu. Mityanin^ab, K. A. Panov^c, N. V. Al'yanova^ab, I. I. Ryabtsev^ab

^a Rzhanov Institute of Semiconductor Physics, Siberian Branch of Russian Academy of Sciences, Novosibirsk
^b Novosibirsk State University
^c Novosibirsk State Technical University

Abstract: The trapping of single atoms in optical dipole traps is widely used in experiments on the implementation of quantum processors based on neutral atoms, and studying interatomic interactions. Typically, such experiments employ lenses with a large numerical aperture (NA > 0.5), highly sensitive EMCCD cameras, or photon counters. In this work, we demonstrate trapping and detection of single rubidium atoms using a long-focus objective lens with a numerical aperture NA = 0.172 and a FLir Tau CNV sCMOS camera.

Keywords: single atoms, dipole traps, quantum computing.

Received: 11.03.2020
Revised: 02.04.2020