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MO: Fachverband Molekülphysik
MO 16: Cold Molecules II
MO 16.6: Vortrag
Mittwoch, 20. März 2013, 12:15–12:30, F 107
Identification and Non-destructive State Detection of Molecular Ions — •Matthias Keller, Amy Gardner, Jack Morphew, Kevin Sheridan, and Nic Seymour-Smith — University od Sussex
Cold molecules have a multitude of applications ranging from high resolution spectroscopy and tests of fundamental theories to cold chemistry and, potentially, quantum information processing. Prerequisite for these applications is the cooling of the molecules' motion and its non-invasive identification. Furthermore, the internal state of the molecules needs to be prepared and non-destructively detected. The cooling of the motion and trapping of molecular ions can be accomplished by trapping them in an rf-trap alongside laser cooled atomic ions. We have developed a novel technique to measure the average charge to mass ratio of trapped ions with high precision by broadband excitation of the ions' COM-mode motion and measuring their laser induced fluorescence. While blackbody assisted laser cooling was recently demonstrated, the non-destructive state detection is still beyond current experiments. Employing state selective laser induced dipole forces we aim to detect the internal state of molecular ions by mapping the state information onto the ions' motion. The scheme promises mitigation of the effect of laser polarisation and the distribution of population across Zeeman sublevels and it may be applicable for a larger number of simultaneously trapped molecules.