R
Robin Côté
Researcher at University of Connecticut
Publications - 167
Citations - 7383
Robin Côté is an academic researcher from University of Connecticut. The author has contributed to research in topics: Excited state & Rydberg formula. The author has an hindex of 36, co-authored 164 publications receiving 6655 citations. Previous affiliations of Robin Côté include Harvard University & Université du Québec à Rimouski.
Papers
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Journal ArticleDOI
Dipole blockade and quantum information processing in mesoscopic atomic ensembles.
Mikhail D. Lukin,Michael Fleischhauer,Robin Côté,Luming Duan,Dieter Jaksch,J. I. Cirac,Peter Zoller +6 more
TL;DR: A technique for manipulating quantum information stored in collective states of mesoscopic ensembles by optical excitation into states with strong dipole-dipole interactions that can be employed for controlled generation of collective atomic spin states as well as nonclassical photonic states and for scalable quantum logic gates is described.
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Fast quantum gates for neutral atoms
TL;DR: Several schemes for implementing a fast two-qubit quantum gate for neutral atoms with the gate operation time much faster than the time scales associated with the external motion of the atoms in the trapping potential are proposed.
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Local blockade of Rydberg excitation in an ultracold gas.
D. Tong,S. M. Farooqi,Jovica Stanojevic,S. Krishnan,Yanpeng Zhang,Robin Côté,Edward E. Eyler,Phillip L. Gould +7 more
TL;DR: In the laser excitation of ultracold atoms to Rydberg states, a dramatic suppression caused by van der Waals interactions is observed; the dependences of this suppression on both laser irradiance and atomic density are in good agreement with a mean-field model.
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Long-range interactions between alkali Rydberg atom pairs correlated to the ns–ns, np–np and nd–nd asymptotes
TL;DR: In this article, the long-range interaction potential curves of highly excited Rydberg atom pairs for the combinations Li, Li, Na-Na, K-K, Rb-Rb and Cs-Cs in a perturbative approach were calculated.
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Schemes for robust quantum computation with polar molecules
TL;DR: In this paper, the authors show how ultracold polar molecules, suggested as a new platform for quantum computation, can be manipulated to switch ''on'' and ''off'' their strong dipole-dipole interactions.