Siemer, B.; Roling, S.; Frigge, R.; Hoger, T.; Mitzner, R.; Zacharias, H.: Free-electron laser induced processes in thin molecular ice. Faraday Discussions 168 (2014), p. 553-569
10.1039/c3fd00116d
Open Access Version
Abstract:
Intermolecular reactions in and on icy films on silicate and carbonaceous grains constitute a major route for the formation of new molecular constituents in interstellar molecular clouds. In more diffuse regions and in protoplanetary discs, energetic radiation can trigger reaction routes far from thermal equilibrium. As an analog of interstellar icecovered dust grains, highly-oriented pyrolytic graphite (HOPG) covered with D2O, NO, and H atoms is irradiated by ultrashort XUV pulses and the desorbing ionic and neutral products are analysed. The yields of several products show a nonlinear intensity dependence and thus enable the elucidation of reaction dynamics by two-pulse correlated desorption.