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Volume 142, 2009
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Precision molecular spectroscopy for ground state transfer of molecular quantum gases

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Abstract

One possibility for the creation of ultracold, high phase space density quantum gases of molecules in the rovibronic ground state relies on first associating weakly-bound molecules from quantum-degenerate atomic gases on a Feshbach resonance and then transferring the molecules via several steps of coherent two-photon stimulated Raman adiabatic passage (STIRAP) into the rovibronic ground state. Here, in ultracold samples of Cs2 Feshbach molecules produced out of ultracold samples of Cs atoms, we observe several optical transitions to deeply-bound rovibrational levels of the excited 0u+ molecular potentials with high resolution. At least one of these transitions, although rather weak, allows efficient STIRAP transfer into the deeply-bound vibrational level |v = 73> of the singlet X1Σg+ ground state potential, as recently demonstrated (J. G. Danzl, E. Haller, M. Gustavsson, M. J. Mark, R. Hart, N. Bouloufa, O. Dulieu, H. Ritsch, and H.-C. Nägerl, Science, 2008, 321, 1062). From this level, the rovibrational ground state |v = 0, J = 0> can be reached with one more transfer step. In total, our results show that coherent ground state transfer for Cs2 is possible using a maximum of two successive two-photon STIRAP processes or one single four-photon STIRAP process.

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Publication details

The article was received on 08 Sep 2008, accepted on 17 Dec 2008 and first published on 12 May 2009


Article type: Paper
DOI: 10.1039/B820542F
Citation: Faraday Discuss., 2009,142, 283-295
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    Precision molecular spectroscopy for ground state transfer of molecular quantum gases

    J. G. Danzl, M. J. Mark, E. Haller, M. Gustavsson, N. Bouloufa, O. Dulieu, H. Ritsch, R. Hart and H. Nägerl, Faraday Discuss., 2009, 142, 283
    DOI: 10.1039/B820542F

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