Dresden 2026 – wissenschaftliches Programm
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O: Fachverband Oberflächenphysik
O 85: Vacuum Science & Technology: Theory and Applications II
O 85.2: Vortrag
Donnerstag, 12. März 2026, 15:30–15:45, HSZ/0401
Near Ambient Pressure ARPES for Operando Surface Studies at Synchrotron SOLEIL — •L. Dudy1, E. Auffray1,2, J.-J. Gallet1,3, F. Bournel1,3, M. Bouaziz3, B. S. Mun4, S. Jang4, Y. Tsujikawa5, H. Kondoh5, S. Moser6, V. Jovic10, V. Mischke7, P. Keßler8, and S. Maehl9 — 1Synchrotron SOLEIL, France — 2U Paris-Saclay, France — 3Sorbonne U, France — 4GIST, South Korea — 5Keio U, Japan — 6U Bochum, Germany — 7TU Dortmund, Germany — 8U Würzburg, Germany — 9SPECS, Germany — 10GNS Science, New Zealand
We present a near-ambient pressure angle-resolved photoemission spectroscopy (NAP-ARPES) setup for operando studies of electronic structure under gas exposure at Synchrotron SOLEIL. This development bridges the gap between conventional UHV ARPES and realistic surface environments, enabling momentum-resolved measurements during catalytic and energy-related processes at pressures up to several millibars. The approach is demonstrated using model systems, showing that band structure evolution can be tracked in real-time during adsorption and reaction. These results highlight the potential of NAP-ARPES for investigating dynamic surface phenomena. By extending ARPES into near-ambient conditions, this method opens new opportunities for studying functional materials under realistic environments for operando electronic structure analysis in surface science.
Keywords: NAP-ARPES; Near Ambient Pressure; Operando, Surface Science; Synchrotron Radiation