Extreme Ultraviolet Wave Packet Interferometry of the Autoionizing HeNe Dimer

Daniel Uhl; Andreas Wituschek; Rupert Michiels; Florian Trinter; Till Jahnke; Enrico Allaria; Carlo Callegari; Miltcho Danailov; Michele Di Fraia; Oksana Plekan; Ulrich Bangert; Katrin Dulitz; Friedemann Landmesser; Moritz Michelbach; Alberto Simoncig; Michele Manfredda; Simone Spampinati; Giuseppe Penco; Richard James Squibb; Raimund Feifel; Tim Laarmann; Marcel Mudrich; Kevin C. Prince; Giulio Cerullo; Luca Giannessi; Frank Stienkemeier; Lukas Bruder

Journal ArticleOPEN ACCESS

Extreme Ultraviolet Wave Packet Interferometry of the Autoionizing HeNe Dimer

Journal of Physical Chemistry Letters (2022) 13(36) 8470-8476

DOI: 10.1021/acs.jpclett.2c01619

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Abstract

Femtosecond extreme ultraviolet wave packet interferometry (XUV-WPI) was applied to study resonant interatomic Coulombic decay (ICD) in the HeNe dimer. The high demands on phase stability and sensitivity for vibronic XUV-WPI of molecular-beam targets are met using an XUV phase-cycling scheme. The detected quantum interferences exhibit vibronic dephasing and rephasing signatures along with an ultrafast decoherence assigned to the ICD process. A Fourier analysis reveals the molecular absorption spectrum with high resolution. The demonstrated experiment shows a promising route for the real-time analysis of ultrafast ICD processes with both high temporal and high spectral resolution.

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Uhl, D., Wituschek, A., Michiels, R., Trinter, F., Jahnke, T., Allaria, E., … Bruder, L. (2022). Extreme Ultraviolet Wave Packet Interferometry of the Autoionizing HeNe Dimer. Journal of Physical Chemistry Letters, 13(36), 8470–8476. https://doi.org/10.1021/acs.jpclett.2c01619

Extreme Ultraviolet Wave Packet Interferometry of the Autoionizing HeNe Dimer

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