Abstract
AbstractWe investigate computationally the valence electronic excitations of the amino acid glycine following a sudden nitrogen core ionization induced by an attosecond X-ray pump pulse. The molecule left in a superposition of cationic excited states is then probed by a second broadband X-ray pulse together with a narrowband pulse tuned to the carbon K-edge. Transient X-ray absorption and attosecond stimulated X-ray Raman signals are simulated and related to the evolution of the valence excited state wavepacket.KeywordsRaman SignalCore TransitionNuclear MotionAttosecond PulseAmino Acid GlycineThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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