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Isidore Last, Joshua Jortner
Novel Ionization Mechanisms of Molecular Clusters in Ultraintense Laser Fields
We explore extreme multielectron ionization of (Xe)n molecular clusters resulting in the formation of highly charged Xek+, k=8–32, ions in ultraintense laser fields (intensity I= 1016–1019Wcm−2), which is driven by a compound, sequential-parallel, inner-outer ionization mechanism. A computational and theoretical study is advanced for the three fundamental processes of electron fs dynamics, which involve the barrier suppression of inner ionization of the constituents, the formation of an energetic electron-positive ion charged plasma within the cluster and the outer ionization of unbound electrons from the cluster. New features of the formation, characteristics, response and dynamics of the electron-positive ion charged plasma in molecular clusters in ultraintense laser fields were explored, providing novel information on a transient (1–100fs) metallic state in finite chemical systems.
Zeitschrift für Physikalische Chemie, Oldenbourg Wissenschaftsverlag
Print ISSN: 0942-9352
Volume: 217, 08/2003
Pages: 975