W. Bernstein
Rice University
15 Papers
276 Citations
W. Bernstein is an academic researcher from Rice University. The author has contributed to research in topics: Beam (structure) & Electron. The author has an hindex of 10, co-authored 15 publications. Previous affiliations of W. Bernstein include Max Planck Society.
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Papers
Laboratory observations of RF emissions at ω pe and (n + ½)ω ce in Electron beam‐plasma and beam‐beam interactions
W. Bernstein,H. Leinbach,Herbert A. Cohen,P. S. Wilson,T. N. Davis,T. J. Hallinan,B. Baker,J. Martz,R. Zeimke,W. Huber +9 more
TL;DR: In this paper, a contrastreaming beam configuration exists, the primary beam consisting of monoenergetic electrons (50 eV to 5 keV) and the other beam of lower energy backscattered secondary electrons (backscattered) secondary electrons.
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Observations of waves generated by electron beams in the ionosphere
TL;DR: In this article, the authors reported that the strongest signals, which are observed near or in the beam, are low-frequency signals in the range 100 Hz to 1 kHz, which reach peaks of 1 V/m.
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Threshold criterion for a space simulation beam‐plasma discharge
TL;DR: An experimental and theoretical study of the threshold characteristics of a space simulation beam-plasma discharge with emphasis on density profiles and a density-dependent ignition criterion was carried out in this paper, where the experimental results were shown to agree with detailed model calculations.
The spatial evolution of energetic electrons and plasma waves during the steady state beam plasma discharge
TL;DR: In this paper, the evolution of both the beam energy spectrum and the local wave amplitude-frequency spectrum at increasing axial distances from the electron gun for a variety of experimental conditions was investigated.
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Laboratory Simulation of Injection Particle Beams in the Ionosphere
Paul J. Kellogg,H. R. Anderson,W. Bernstein,T. J. Hallinan,R. H. Holzworth,R. J. Jost,H. Leinbach,E. P. Szuszczewicz +7 more
- 01 Jan 1982
TL;DR: Hess and Winckler as discussed by the authors carried out the first rocket-borne, electron beam injection experiments, and the results appeared to be consistent in some ways with the concept that the beam electrons demonstrated single particle behavior over their entire trajectory from injection to detection.
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