Title :
A CO/sub 2/ laser optical lattice with cold rubidium atoms
Author :
Weitz, M. ; Friebel, S. ; Scheunemann, R. ; Walz, J. ; Hansch, T.W.
Author_Institution :
Max-Planck-Inst. fur Quantenoptik, Garching bei Munchen, Germany
Abstract :
Summary form only given.We report here the successful trapping of rubidium atoms in the antinodes of a standing wave near 10.6 /spl mu/m. This represents the realization of an optical lattice with usually large lattice period, being approximately seven times that of the excitation wavelength of the lowest electronic resonance. In a later three-dimensional configuration, more than one atom per microscopic trap could be captured at moderate average atomic densities, whereas in conventional optical lattices, only a few percent of the lattice sites are occupied.
Keywords :
excited states; laser cooling; magneto-optical effects; radiation pressure; rubidium; 10.6 mum; CO/sub 2/; CO/sub 2/ laser optical lattice; Rb; antinodes; cold rubidium atoms; excitation wavelength; large lattice period; lattice sites; lowest electronic resonance; microscopic trap; moderate average atomic densities; optical lattices; standing wave; three-dimensional configuration; Atom lasers; Atom optics; Atomic beams; Atomic measurements; Charge carrier processes; Coherence; Laser beams; Lattices; Optical polarization; Resonance;
Conference_Titel :
Quantum Electronics Conference, 1998. IQEC 98. Technical Digest. Summaries of papers presented at the International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
1-55752-541-2
DOI :
10.1109/IQEC.1998.680419
