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PUBLICATIONS

Controlling the group velocity of colliding atomic Bose-Einstein condensates with Feshbach resonances

Published

Author(s)

Ranchu Mathew, Eite Tiesinga

Abstract

We report on a proposal to change the group velocity upon colliding two atomic Bose-Einstein Condensates (BECs) in analogy to slowing of light passing through dispersive media. We make use of ultracold collisions near a magnetic Feshbach resonance, which gives rise to a sharp variation in scattering length with collision energy and thereby changes the group velocity. A generalized Gross-Pitaveskii equation is derived for a small BEC moving through a larger stationary BEC. We denote the two condensates by laser and medium BEC, respectively, to highlight the analogy to a laser pulse travelling through a medium. We derive an expression for the group velocity for a homogeneous medium as well as for the difference in distance, \delta, covered by the laser BEC in the presence and absence of a finite-sized medium BEC. For a medium and laser of the same isotopic species, the shift $\delta$ has an upper bound of twice the Thomas-Fermi radius of the medium. For typical narrow Feshbach resonances and a medium with number density 10^14} cm^-3} up to 85% of the upper bound can be achieved, making the effect experimentally observable. We also derive constraints on the experimental realization of our proposal.
Citation
Physical Review A (Atomic, Molecular and Optical Physics)
Volume
87
Issue
5
Pub Type
Journals

Download Paper

https://doi.org/10.1103/PhysRevA.87.053608
Local Download

Keywords

ultracold atoms, Feshbach resonances, atome lasers, slow light
Atomic / molecular / quantum

Citation

Mathew, R. and Tiesinga, E. (2013), Controlling the group velocity of colliding atomic Bose-Einstein condensates with Feshbach resonances, Physical Review A (Atomic, Molecular and Optical Physics), [online], https://doi.org/10.1103/PhysRevA.87.053608, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=913087 (Accessed April 19, 2024)

Created May 9, 2013, Updated October 12, 2021