English

Quantum-state selection, alignment, and orientation of large molecules using static electric and laser fields

Chemical Physics 2009-09-14 v3 Atomic and Molecular Clusters Instrumentation and Detectors
Authors: Frank Filsinger , Jochen Küpper , Gerard Meijer , Lotte Holmegaard , Jens H. Nielsen , Iftach Nevo , Jonas L. Hansen , Henrik Stapelfeldt
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Abstract

Supersonic beams of polar molecules are deflected using inhomogeneous electric fields. The quantum-state selectivity of the deflection is used to spatially separate molecules according to their quantum state. A detailed analysis of the deflection and the obtained quantum-state selection is presented. The rotational temperatures of the molecular beams are determined from the spatial beam profiles and are all approximately 1 K. Unprecedented degrees of laser-induced alignment (<cos2θ2D>=0.972)(<\cos^2\theta_{2D}>=0.972) and orientation of iodobenzene molecules are demonstrated when the state-selected samples are used. Such state-selected and oriented molecules provide unique possibilities for many novel experiments in chemistry and physics.

Keywords

ultracold molecules laser physics laser cooling and trapping

Cite

@article{arxiv.0903.5413,
  title  = {Quantum-state selection, alignment, and orientation of large molecules using static electric and laser fields},
  author = {Frank Filsinger and Jochen Küpper and Gerard Meijer and Lotte Holmegaard and Jens H. Nielsen and Iftach Nevo and Jonas L. Hansen and Henrik Stapelfeldt},
  journal= {arXiv preprint arXiv:0903.5413},
  year   = {2009}
}

Comments

minor changes, references updated

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