Fourfold Differential Photoelectron Circular Dichroism

Fehre, K.; Novikovskiy, N. M.; Grundmann, S.; Kastirke, G.; Eckart, S.; Trinter, Florian; Rist, J.; Hartung, A.; Trabert, D.; Janke, C.; Nalin, G.; Pitzer, M.; Zeller, S.; Wiegandt, F.; Weller, M.; Kircher, M.; Hofmann, M.; Schmidt, L. Ph. H.; Knie, A.; Hans, A.; Ltaief, L. Ben; Ehresmann, A.; Berger, R.; Fukuzawa, H.; Ueda, K.; Schmidt-Böcking, H.; Williams, J. B.; Jahnke, T.; Dörner, R.; Schöffler, M. S.; Demekhin, Ph. V.

doi:10.1103/PhysRevLett.127.103201

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Fourfold Differential Photoelectron Circular Dichroism

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Trinter, Florian
Institut für Kernphysik, Goethe-Universität;
Molecular Physics, Fritz Haber Institute, Max Planck Society;

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Citation

Fehre, K., Novikovskiy, N., Grundmann, S., Kastirke, G., Eckart, S., Trinter, F., et al. (2021). Fourfold Differential Photoelectron Circular Dichroism. Physical Review Letters, 127(10): 103201. doi:10.1103/PhysRevLett.127.103201.

Cite as: https://hdl.handle.net/21.11116/0000-0009-24B4-3

Abstract

We report on a joint experimental and theoretical study of photoelectron circular dichroism (PECD) in methyloxirane. By detecting O 1s photoelectrons in coincidence with fragment ions, we deduce the molecule’s orientation and photoelectron emission direction in the laboratory frame. Thereby, we retrieve a fourfold differential PECD clearly beyond 50%. This strong chiral asymmetry is reproduced by ab initio electronic structure calculations. Providing such a pronounced contrast makes PECD of fixed-in-space chiral molecules an even more sensitive tool for chiral recognition in the gas phase.