Enhanced ionization of acetylene in intense laser pulses is due to energy upshift and field coupling of multiple orbitals

Erattupuzha S, Covington CL, Russakoff A, Lotstedt E, Larimian S, Hanus V, Schoeffler M, Bubin S, Koch M, Gräfe S, Baltuska A, Xie X, Yamanouchi K, Varga K, Kitzler M (2017)

Publication Type: Conference contribution

Publication year: 2017

Publisher: Institute of Physics Publishing

Book Volume: 875

Conference Proceedings Title: Journal of Physics: Conference Series

Event location: Cairns, QLD, AUS

DOI: 10.1088/1742-6596/875/4/032012

Abstract

We describe a new enhanced ionization mechanism for polyatomic molecules. It works via a significant energy up-shift of valence orbitals for stretched bonds and a strong concomitant increase in the coupling between multiple molecular orbitals.

Involved external institutions

Technische Universität Wien / Vienna University of Technology AT Austria (AT) University of Tokyo JP Japan (JP) Vanderbilt University US United States (USA) (US) Nazarbayev University / Назарбаев Университеті KZ Kazakhstan (KZ) Technische Universität Graz AT Austria (AT) Friedrich-Schiller-Universität Jena DE Germany (DE)

How to cite

APA:

Erattupuzha, S., Covington, C.L., Russakoff, A., Lotstedt, E., Larimian, S., Hanus, V.,... Kitzler, M. (2017). Enhanced ionization of acetylene in intense laser pulses is due to energy upshift and field coupling of multiple orbitals. In Sean Hodgman, Alexander Bray, Anatoli Kheifets, Joshua Machacek (Eds.), Journal of Physics: Conference Series. Cairns, QLD, AUS: Institute of Physics Publishing.

MLA:

Erattupuzha, Sonia, et al. "Enhanced ionization of acetylene in intense laser pulses is due to energy upshift and field coupling of multiple orbitals." Proceedings of the 30th International Conference on Photonic, Electronic, and Atomic Collisions, ICPEAC 2017, Cairns, QLD, AUS Ed. Sean Hodgman, Alexander Bray, Anatoli Kheifets, Joshua Machacek, Institute of Physics Publishing, 2017.

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