Vartkess Ara Apkarian,1 P. Ashjian,1 N. Blake,1 A. Danylichev,1 Matt Hill,1 G. J. Hoffman,1 D. Imre,1 William G. Lawrence,1 E. Sekreta,1 Ruben Zadoyan,1 Jim V. Zoval1
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Understanding many-body dynamics on a molecular level is a major aim in condensed phase photodynamical research. Much can be learned about this general field through studies of molecular photodissociation in model systems, namely crystalline rare gas solids. The aim of this presentation is to illustrate this proposition by highlights drawn from a variety of related investigations. Under the title of photodissociation in solids, several related processes can be categorized: charge transfer induced 1 radiative dis sociation ,2 atomic photomobility,3 are examples.
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Vartkess Ara Apkarian, P. Ashjian, N. Blake, A. Danylichev, Matt Hill, G. J. Hoffman, D. Imre, William G. Lawrence, E. Sekreta, Ruben Zadoyan, Jim V. Zoval, "Photodissociation dynamics in crystalline solids: many-body dynamics," Proc. SPIE 1638, Optical Methods for Time- and State-Resolved Chemistry, (1 April 1992); https://doi.org/10.1117/12.58123