Rotational Bragg Scattering: Spinning Atoms With the Orbital Angular Momentum of Light

William D. Phillips; William D. Phillips; Mikkel F. Andersen; Mikkel F. Andersen; Pierre Cladé; Pierre Cladé; Kristian Helmerson; Kristian Helmerson; Vasant Natarajan; Vasant Natarajan; Anand Ramanathan; Anand Ramanathan; Changhyun Ryu; Changhyun Ryu; Alipasha Vaziri; Alipasha Vaziri

doi:10.1364/QAO.2007.QMA1

Quantum-Atom Optics Downunder
OSA Technical Digest (CD) (Optica Publishing Group, 2007),
paper QMA1
•https://doi.org/10.1364/QAO.2007.QMA1

Rotational Bragg Scattering: Spinning Atoms With the Orbital Angular Momentum of Light

William D. Phillips, Mikkel F. Andersen, Pierre Cladé, Kristian Helmerson, Vasant Natarajan, Anand Ramanathan, Changhyun Ryu, and Alipasha Vaziri

Quantum-Atom Optics Downunder 2007

Wollongong Australia
3–6 December 2007
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W. D. Phillips, M. F. Andersen, P. Cladé, K. Helmerson, V. Natarajan, A. Ramanathan, C. Ryu, and A. Vaziri, "Rotational Bragg Scattering: Spinning Atoms With the Orbital Angular Momentum of Light," in Quantum-Atom Optics Downunder, OSA Technical Digest (CD) (Optica Publishing Group, 2007), paper QMA1.

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Abstract

We demonstrate the coherent, quantized transfer of the orbital angular momentum of light to a Bose-Einstein condensate of sodium atoms by means of a stimulated, two-photon transition between the static, non-rotating BEC and a rotating state moving with the linear momentum of two photons. By reversing the transfer of linear momentum, without any angular momentum, we create either vortex states (in a simply connected trap) or persistent atom currents (in a toroidal trap). The persistent current in the toroidal trap lasts about 20 times longer than a vortex under similar conditions in the simply connected trap.

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