Dipole forces, excitations and dissipation in Bose-Einstein condensates

Author

Raman, Chandrasekharan ; Onofrio, R. ; Kohl, Michael ; Durfee, D.S. ; Kuklewicz, C. ; Hadzibabic, Z. ; Ketterle, Wolfgang

Author_Institution

Dept. of Phys., MIT, Cambridge, MA, USA

fYear

2000

fDate

12-12 May 2000

Firstpage

227

Lastpage

228

Abstract

Summary form only given. A distinguishing feature of Bose-Einstein condensates in trapped atomic gases is the ability to manipulate them with laser light. This is a tool which is not available for the study of liquid helium. In this work, we use the mechanical forces exerted by light on atoms to create and study collective excitations. We can apply either repulsive or attractive forces locally to a Bose-Einstein condensed gas with scanning, focused laser beams tuned to the blue or to the red of the principal atomic resonance, respectively. With spatio-temporal control of the forces, we have studied dissipation in the condensate as well as creating collective excitations with a controllable symmetry and time dependence.

Keywords

Bose-Einstein condensation; laser beam effects; liquid helium; quantum optics; radiation pressure; Bose-Einstein condensates; Bose-Einstein condensed gas; He; attractive forces; collective excitations; dipole forces; dissipation; focused laser beams; laser light; liquid helium; principal atomic resonance; spatio-temporal control; trapped atomic gases; Atom lasers; Atomic beams; Force control; Gas lasers; Gases; Helium; Laser beams; Laser excitation; Laser tuning; Resonance;

fLanguage

English

Publisher

ieee

Conference_Titel

Quantum Electronics and Laser Science Conference, 2000. (QELS 2000). Technical Digest

Conference_Location

San Francisco, CA, USA

ISSN

1094-5695

Print_ISBN

1-55752-608-7

Type

conf

Filename

902032