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F. Barry Dunning
Researcher at Rice University
Publications - 10
Citations - 50
F. Barry Dunning is an academic researcher from Rice University. The author has contributed to research in topics: Rydberg atom & Ionization. The author has an hindex of 4, co-authored 10 publications receiving 44 citations.
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Journal ArticleDOI
Roadmap on photonic, electronic and atomic collision physics: III. Heavy particles: with zero to relativistic speeds
Friedrich Aumayr,Kiyoshi Ueda,Emma Sokell,Stefan Schippers,Hossein Sadeghpour,Frédéric Merkt,Frédéric Merkt,Thomas Gallagher,F. Barry Dunning,Paul Scheier,Olof Echt,Tom Kirchner,Stephan Fritzsche,Andrey Surzhykov,Andrey Surzhykov,Xinwen Ma,Roberto D. Rivarola,Omar Ariel Fojon,Lokesh C. Tribedi,Emily Lamour,José R. Crespo López-Urrutia,Yuri A. Litvinov,V. M. Shabaev,Henrik Cederquist,Henning Zettergren,Marika Schleberger,Richard A. Wilhelm,Toshiyuki Azuma,Philippe Boduch,Henning Schmidt,Thomas Stöhlker +30 more
TL;DR: In this article, three roadmaps on photonic, electronic and atomic collision physics were published in order to celebrate the 60th anniversary of the ICPEAC conference, with the focus on heavy particles.
Production of very-high- n strontium Rydberg atoms
S. Ye,X. Zhang,Thomas Killian,F. Barry Dunning,Moritz Hiller,Shuhei Yoshida,Stefan Nagele,Joachim Burgdörfer +7 more
Journal ArticleDOI
Demonstration of turnstiles as a chaotic ionization mechanism in Rydberg atoms.
TL;DR: This study creates time-dependent Rydberg wave packets, subject them to alternating applied electric-field pulses, and measures the electron survival probability, finding that survival data encode information on the shape and location of the turnstile, in good agreement with theoretical predictions.
Journal Article
Characterizing high- n quasi-one-dimensional strontium Rydberg atoms
TL;DR: In this paper, Hiller et al. proposed a method to solve the problem of quantum teleportation in the context of physics and astronomy, and the method was applied in the field of quantum physics.
Journal ArticleDOI
Chaotic ionization of a stationary electron state via a phase space turnstile
TL;DR: In this article, the dependence of the turnstile geometry on the kicking period was explored, and it was shown that increasing the kicking strength leads to a sharp rise in the total ionization fraction.