Starktuned Foerster resonance and dipole blockade for two to five cold Rydberg atoms: Monte Carlo simulations for various spatial configurations
Abstract
Results of numerical Monte Carlo simulations for the Starktuned Fo{center_dot}{center_dot}rster resonance and dipole blockade between two to five cold rubidium Rydberg atoms in various spatial configurations are presented. The effects of the atoms' spatial uncertainties on the resonance amplitude and spectra are investigated. The feasibility of observing coherent Rabilike population oscillations at a Fo{center_dot}{center_dot}rster resonance between two cold Rydberg atoms is analyzed. Spectra and the fidelity of the Rydberg dipole blockade are calculated for various experimental conditions, including nonzero detuning from the Fo{center_dot}{center_dot}rster resonance and finite laser linewidth. The results are discussed in the context of quantuminformation processing with Rydberg atoms.
 Authors:

 Institute of Semiconductor Physics Prospekt Lavrentyeva 13, RU630090 Novosibirsk (Russian Federation)
 Publication Date:
 OSTI Identifier:
 21528669
 Resource Type:
 Journal Article
 Journal Name:
 Physical Review. A
 Additional Journal Information:
 Journal Volume: 82; Journal Issue: 5; Other Information: DOI: 10.1103/PhysRevA.82.053409; (c) 2010 The American Physical Society; Journal ID: ISSN 10502947
 Country of Publication:
 United States
 Language:
 English
 Subject:
 71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; 73 NUCLEAR PHYSICS AND RADIATION PHYSICS; AMPLITUDES; ATOMS; COMPUTERIZED SIMULATION; DATA PROCESSING; DIPOLES; MONTE CARLO METHOD; OSCILLATIONS; QUANTUM INFORMATION; RUBIDIUM; RYDBERG STATES; SPECTRA; STARK EFFECT; ALKALI METALS; CALCULATION METHODS; ELEMENTS; ENERGY LEVELS; EXCITED STATES; INFORMATION; METALS; MULTIPOLES; PROCESSING; SIMULATION
Citation Formats
Ryabtsev, I I, Tretyakov, D B, Beterov, I I, Entin, V M, and Yakshina, E A. Starktuned Foerster resonance and dipole blockade for two to five cold Rydberg atoms: Monte Carlo simulations for various spatial configurations. United States: N. p., 2010.
Web. doi:10.1103/PHYSREVA.82.053409.
Ryabtsev, I I, Tretyakov, D B, Beterov, I I, Entin, V M, & Yakshina, E A. Starktuned Foerster resonance and dipole blockade for two to five cold Rydberg atoms: Monte Carlo simulations for various spatial configurations. United States. doi:10.1103/PHYSREVA.82.053409.
Ryabtsev, I I, Tretyakov, D B, Beterov, I I, Entin, V M, and Yakshina, E A. Mon .
"Starktuned Foerster resonance and dipole blockade for two to five cold Rydberg atoms: Monte Carlo simulations for various spatial configurations". United States. doi:10.1103/PHYSREVA.82.053409.
@article{osti_21528669,
title = {Starktuned Foerster resonance and dipole blockade for two to five cold Rydberg atoms: Monte Carlo simulations for various spatial configurations},
author = {Ryabtsev, I I and Tretyakov, D B and Beterov, I I and Entin, V M and Yakshina, E A},
abstractNote = {Results of numerical Monte Carlo simulations for the Starktuned Fo{center_dot}{center_dot}rster resonance and dipole blockade between two to five cold rubidium Rydberg atoms in various spatial configurations are presented. The effects of the atoms' spatial uncertainties on the resonance amplitude and spectra are investigated. The feasibility of observing coherent Rabilike population oscillations at a Fo{center_dot}{center_dot}rster resonance between two cold Rydberg atoms is analyzed. Spectra and the fidelity of the Rydberg dipole blockade are calculated for various experimental conditions, including nonzero detuning from the Fo{center_dot}{center_dot}rster resonance and finite laser linewidth. The results are discussed in the context of quantuminformation processing with Rydberg atoms.},
doi = {10.1103/PHYSREVA.82.053409},
journal = {Physical Review. A},
issn = {10502947},
number = 5,
volume = 82,
place = {United States},
year = {2010},
month = {11}
}