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Real-time observation of water radiolysis and hydrated electron formation induced by extreme-ultraviolet pulses

Vít Svoboda, Rupert Michiels, Aaron LaForge, Jakub Med, F. Stienkemeier, Petr Slavı́ček, Hans Jakob Wörner

2020Science Advances90 citationsDOIOpen Access PDF

Abstract

O clusters using femtosecond pump pulses centered at 133 or 80 nm. In both excitation schemes, hydrogen or proton transfer is observed to yield a prehydrated electron within 30 to 60 fs, followed by its solvation in 0.3 to 1.0 ps and its decay through geminate recombination on a ∼10-ps time scale. These results are interpreted by comparison with detailed multiconfigurational non-adiabatic ab-initio molecular dynamics calculations. Our results provide the first comprehensive picture of the primary steps of radiation chemistry and radiation damage and demonstrate new approaches for their study with unprecedented time resolution.

Topics & Concepts

RadiolysisExtreme ultravioletUltravioletElectronSolvated electronChemical physicsUltraviolet radiationPhotochemistryMaterials scienceIrradiationEnvironmental scienceAtomic physicsChemistryPhysicsRadiochemistryOptoelectronicsOpticsNuclear physicsLaserSpectroscopy and Quantum Chemical StudiesSpectroscopy and Laser ApplicationsAtomic and Molecular Physics