S
S. Zeller
Researcher at Goethe University Frankfurt
Publications - 30
Citations - 8030
S. Zeller is an academic researcher from Goethe University Frankfurt. The author has contributed to research in topics: Ionization & Ion. The author has an hindex of 13, co-authored 30 publications receiving 4797 citations.
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Journal ArticleDOI
Double-slit photoelectron interference in strong-field ionization of the neon dimer.
Maksim Kunitski,Nicolas Eicke,Pia Huber,Jonas Köhler,S. Zeller,J. Voigtsberger,Nikolai Schlott,K. Henrichs,H. Sann,Florian Trinter,Lothar Ph. H. Schmidt,Anton Kalinin,Markus Schöffler,Till Jahnke,Manfred Lein,Reinhard Dörner +15 more
TL;DR: The authors show the double-slit interference effect in the strong-field ionization of neon dimers by employing COLTRIMS method to record the momentum distribution of the photoelectrons in the molecular frame.
Journal ArticleDOI
Observation of the Efimov state of the helium trimer
Maksim Kunitski,S. Zeller,J. Voigtsberger,Anton Kalinin,Lothar Ph. H. Schmidt,Markus Schöffler,Achim Czasch,Wieland Schöllkopf,Robert E. Grisenti,Robert E. Grisenti,Till Jahnke,Dörte Blume,Reinhard Dörner +12 more
TL;DR: Experimental observation of this long-predicted but experimentally elusive Efimov state of 4He3 by means of Coulomb explosion imaging confirms the predicted size and a typical structure where two atoms are close to each other while the third is far away and sheds light on three-body physics more broadly.
Journal ArticleDOI
Observation of the Efimov state of the helium trimer
Maksim Kunitski,S. Zeller,J. Voigtsberger,Anton Kalinin,Lothar Ph. H. Schmidt,Markus Schöffler,Achim Czasch,Wieland Schöllkopf,Robert E. Grisenti,Robert E. Grisenti,Till Jahnke,Dörte Blume,Reinhard Dörner +12 more
TL;DR: In this article, the authors reported experimental observation of this long predicted but experimentally elusive Efimov state by means of Coulomb explosion imaging, confirming the predicted size and a typical structure where two atoms are close to each other while the third is far away.
Journal ArticleDOI
Imaging the He2 quantum halo state using a free electron laser.
S. Zeller,Maksim Kunitski,J. Voigtsberger,A. Kalinin,Alexander Schottelius,C. Schober,M. Waitz,H. Sann,Alexander Hartung,T. Bauer,M. Pitzer,Florian Trinter,C. Goihl,C. Janke,Martin Richter,G. Kastirke,M. Weller,Achim Czasch,Markus Kitzler,Markus Braune,Robert E. Grisenti,Robert E. Grisenti,Wieland Schöllkopf,Lothar Ph. H. Schmidt,Markus Schöffler,Joshua B. Williams,Till Jahnke,Reinhard Dörner +27 more
TL;DR: An extreme quantum system is presented: a gigantic molecule consisting of two helium atoms, with an 80% probability that its two nuclei will be found in this classical forbidden region of space.
Journal ArticleDOI
Magnetic fields alter strong-field ionization
Alexander Hartung,Sebastian Eckart,Simon Brennecke,Jonas Rist,D. Trabert,K. Fehre,Martin Richter,H. Sann,S. Zeller,K. Henrichs,G. Kastirke,J. Hoehl,A. Kalinin,Markus Schöffler,Till Jahnke,L. Ph. H. Schmidt,Manfred Lein,Maksim Kunitski,Reinhard Dörner +18 more
TL;DR: In this paper, the effects of the photon momentum in strong-field ionization were investigated using two counter-propagating laser pulses, and the high precision of the method and the intrinsically known zero momentum allowed them to unambiguously demonstrate the action of the light's magnetic field on the electron while it is under the tunnel barrier.