Freiburg 2024 – wissenschaftliches Programm
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MO: Fachverband Molekülphysik
MO 11: X-ray Spectroscopy
MO 11.3: Vortrag
Mittwoch, 13. März 2024, 11:30–11:45, HS 3044
X-ray absorption of CF4 driven by x-ray free-electron laser — •Rui Jin1, Adam Fouda2, Alexander Magunia1, Marc Rebholz1, Alberto De Fanis3, Kai Li2, Gilles Doumy2, Jan-Erik Rubensson4, Maria Novella Piancastelli5, Marc Simon5, Thomas Baumann3, Michael Straub1, Sergey Usenko3, Yevheniy Ovcharenko3, Tommasso Mazza3, Nina Rohringer6,7, Michael Meyer3, Linda Young2,8, Christian Ott1, and Thomas Pfeifer1 — 1MPIK, Heidelberg — 2Argonne National Laboratory, USA — 3European XFEL, Schenefeld — 4Uppsala University, Sweden — 5Sorbonne Universités, Paris — 6DESY, Hamburg — 7Universität Hamburg — 8University of Chicago, USA
X-ray absorption spectroscopy (XAS) is widely used to study atomic and molecular structure and dynamics, especially at the core level. X-ray free electron lasers (XFEL) have introduced coherent, high-brilliance, and ultrashort laser pulses with tunable energies, thereby enabling the study of multiphoton x-ray matter interactions. In this work, the EuXFEL is combined with a grating spectrometer for a single-pulse transient absorption study of the intermediate electronic states arising from multiphoton-induced molecular dynamics in CF4. The central photon energy is tuned to initiate dynamics with and without producing fluorine K-holes. The spectra are measured at different FEL intensities to study multiphoton effects. Two main findings are: (1) neutral fluorine atoms are observed within the pulse duration (40 fs), and (2) short-lived molecular fragments with fluorine 1s-core hole state are observed for high intensities. Precise atomic and molecular structure calculations as well as semi-classical molecular dynamics are used to interpret the results. Overall, this study demonstrates the potential of XFEL-driven transient-absorption spectroscopy to study ultrafast multiphoton dynamics of molecular systems.
Keywords: x-ray absorption; x-ray free-electron laser; ultrafast fragmentation; multiphoton