English

Formation of deeply bound molecules via chainwise adiabatic passage

Quantum Physics 2009-11-13 v1
Authors: Elena Kuznetsova , Philippe Pellegrini , Robin Côté , M. D. Lukin , S. F. Yelin
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Abstract

We suggest and analyze a novel technique for efficient and robust creation of dense ultracold molecular ensembles in their ground rovibrational state. In our approach a molecule is brought to the ground state through a series of intermediate vibrational states via a {\em multistate chainwise Stimulated Raman Adiabatic Passage} (c-STIRAP) technique. We study the influence of the intermediate states decay on the transfer process and suggest an approach that minimizes the population of these states, resulting in a maximal transfer efficiency. As an example, we analyze the formation of 87^{87}Rb2_{2} starting from an initial Feshbach molecular state and taking into account major decay mechanisms due to inelastic atom-molecule and molecule-molecule collisions. Numerical analysis suggests a transfer efficiency >> 90%, even in the presence of strong collisional relaxation as are present in a high density atomic gas.

Keywords

stimulated raman adiabatic passage ultracold molecules molecular dynamics simulations

Cite

@article{arxiv.0806.0821,
  title  = {Formation of deeply bound molecules via chainwise adiabatic passage},
  author = {Elena Kuznetsova and Philippe Pellegrini and Robin Côté and M. D. Lukin and S. F. Yelin},
  journal= {arXiv preprint arXiv:0806.0821},
  year   = {2009}
}

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