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MO: Fachverband Molekülphysik

MO 5: Collisions, Energy Transfer

MO 5.3: Vortrag

Montag, 14. März 2011, 15:00–15:15, MER 02

Rotational dependence of the proton-transfer reaction HBr⁺ + CO₂ → HOCO⁺ + Br — •Lisa Paetow, Franziska Unger, Bernd Beutel, and Karl-Michael Weitzel — Philipps-Universität Marburg, Fachbereich Chemie, 35032 Marburg

The effects of reactant ion rotational excitation on the proton-transfer reactions of HBr⁺ and DBr⁺ with CO₂ were studied in a guided ion beam apparatus. State selected HBr⁺ (DBr⁺) ions in the ²Π_3/2(v⁺=0) and the ²Π_1/2(v⁺=0) state were prepared by resonance enhanced multiphoton ionization (REMPI). This process, which results in ions with narrow rotational state distributions, was used to vary the mean rotational energy of the ions from 1 to 66 meV. Cross sections are presented for collision energies E_c.m. in the center of mass system in the range of 0.23 to 1.90 eV. Ab initio calculations were performed to obtain energetic information about reactants, intermediates, and products [1]. For certain values of E_c.m., a comparison between the experimental results for HBr⁺ and DBr⁺ indicates that the cross section is dominated by effects of rotational energy rather than angular momentum. While the proton transfer is slightly endothermic for HBr⁺(²Π_3/2), it is exothermic for HBr⁺(²Π_1/2). This allows us to compare the cross sections for an endothermic and an exothermic reaction within the same reaction system [2]. Our results provide information on the relevant bottleneck of the reactions.

[1] L.Paetow, F.Unger, W.Beichel, G.Frenking, K.-M.Weitzel, JCP 132, 174305(2010)

[2] L.Paetow, F.Unger, B.Beutel, K.-M.Weitzel, JCP, in press