| Literature DB >> 27035300 |
A P O'Connor1, A Becker1, K Blaum1, C Breitenfeldt1,2, S George1, J Göck1, M Grieser1, F Grussie1, E A Guerin1, R von Hahn1, U Hechtfischer1, P Herwig1, J Karthein1, C Krantz1, H Kreckel1, S Lohmann1, C Meyer1, P M Mishra1, O Novotný1, R Repnow1, S Saurabh1, D Schwalm1,3, K Spruck4, S Sunil Kumar1, S Vogel1, A Wolf1.
Abstract
We have studied the photodissociation of CH^{+} in the Cryogenic Storage Ring at ambient temperatures below 10 K. Owing to the extremely high vacuum of the cryogenic environment, we were able to store CH^{+} beams with a kinetic energy of ∼60 keV for several minutes. Using a pulsed laser, we observed Feshbach-type near-threshold photodissociation resonances for the rotational levels J=0-2 of CH^{+}, exclusively. In comparison to updated, state-of-the-art calculations, we find excellent agreement in the relative intensities of the resonances for a given J, and we can extract time-dependent level populations. Thus, we can monitor the spontaneous relaxation of CH^{+} to its lowest rotational states and demonstrate the preparation of an internally cold beam of molecular ions.Year: 2016 PMID: 27035300 DOI: 10.1103/PhysRevLett.116.113002
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161