Energy distribution and cooling of a single atom in an optical tweezer

C. Tuchendler; A. M. Lance; A. Browaeys; Y. R.P. Sortais; P. Grangier

doi:10.1103/PhysRevA.78.033425

Energy distribution and cooling of a single atom in an optical tweezer

C. Tuchendler
, A. M. Lance
, A. Browaeys
, Y. R.P. Sortais
, P. Grangier

Université Paris-Sud

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We investigate experimentally the energy distribution of a single Rb87 atom trapped in a strongly focused dipole trap under various cooling regimes. Using two different methods to measure the mean energy of the atom, we show that the energy distribution of the radiatively cooled atom is close to thermal. We then demonstrate how to reduce the energy of the single atom, first by adiabatic cooling, and then by truncating the Boltzmann distribution of the single atom. This provides a nondeterministic way to prepare atoms at low micro-K temperatures, close to the ground state of the trapping potential.

langue originale	Anglais
Numéro d'article	033425
journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	78
Numéro de publication	3
Les DOIs	https://doi.org/10.1103/PhysRevA.78.033425
état	Publié - 23 sept. 2008
Modification externe	Oui

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10.1103/PhysRevA.78.033425

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abstract = "We investigate experimentally the energy distribution of a single Rb87 atom trapped in a strongly focused dipole trap under various cooling regimes. Using two different methods to measure the mean energy of the atom, we show that the energy distribution of the radiatively cooled atom is close to thermal. We then demonstrate how to reduce the energy of the single atom, first by adiabatic cooling, and then by truncating the Boltzmann distribution of the single atom. This provides a nondeterministic way to prepare atoms at low micro-K temperatures, close to the ground state of the trapping potential.",

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AU - Lance, A. M.

AU - Browaeys, A.

AU - Sortais, Y. R.P.

AU - Grangier, P.

PY - 2008/9/23

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N2 - We investigate experimentally the energy distribution of a single Rb87 atom trapped in a strongly focused dipole trap under various cooling regimes. Using two different methods to measure the mean energy of the atom, we show that the energy distribution of the radiatively cooled atom is close to thermal. We then demonstrate how to reduce the energy of the single atom, first by adiabatic cooling, and then by truncating the Boltzmann distribution of the single atom. This provides a nondeterministic way to prepare atoms at low micro-K temperatures, close to the ground state of the trapping potential.

AB - We investigate experimentally the energy distribution of a single Rb87 atom trapped in a strongly focused dipole trap under various cooling regimes. Using two different methods to measure the mean energy of the atom, we show that the energy distribution of the radiatively cooled atom is close to thermal. We then demonstrate how to reduce the energy of the single atom, first by adiabatic cooling, and then by truncating the Boltzmann distribution of the single atom. This provides a nondeterministic way to prepare atoms at low micro-K temperatures, close to the ground state of the trapping potential.

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Energy distribution and cooling of a single atom in an optical tweezer

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