T
Theodore A. Fritz
Researcher at Boston University
Publications - 254
Citations - 7152
Theodore A. Fritz is an academic researcher from Boston University. The author has contributed to research in topics: Magnetosphere & Magnetopause. The author has an hindex of 45, co-authored 254 publications receiving 6840 citations. Previous affiliations of Theodore A. Fritz include University of Iowa & Los Alamos National Laboratory.
Papers
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Journal ArticleDOI
Energetic electron response to ULF waves induced by interplanetary shocks in the outer radiation belt
Qiugang Zong,Qiugang Zong,Xu-Zhi Zhou,Xu-Zhi Zhou,Y. F. Wang,Xinlin Li,Paul Song,Daniel N. Baker,Theodore A. Fritz,P. W. Daly,M. W. Dunlop,Arne Pedersen +11 more
TL;DR: In this paper, the relationship between the energetic electron bursts and the large shock-induced ULF waves is studied, and it is shown that the energetic electrons could be accelerated and decelerated by the observed ULF wave electric fields, and the distinct wave number of the poloidal and toroidal waves at different locations also indicates the different energy ranges of electrons resonating with these waves.
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The SSC on July 29, 1977 and its propagation within the magnetosphere
TL;DR: In this paper, the authors studied the propagation of the resulting MHD wave within the magnetosphere with measurements from a total of six satellites in (or near) the geostationary orbit and the interplanetary space and ground-based magnetometers.
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Ultralow frequency modulation of energetic particles in the dayside magnetosphere
Qiugang Zong,Qiugang Zong,Xu-Zhi Zhou,Xu-Zhi Zhou,Xinlin Li,Paul Song,S. Y. Fu,Daniel N. Baker,Zuyin Pu,Theodore A. Fritz,P. W. Daly,André Balogh,H. Rème +12 more
TL;DR: In this article, it was shown that the electron flux is dominated by the toroidal mode in the region of L > 7.5, while the ion flux was dominated by a relatively weaker poloidal wave.
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CEPPAD: Comprehensive energetic particle and pitch angle distribution experiment on POLAR
J. B. Blake,J. F. Fennell,L. M. Friesen,B. M. Johnson,W. A. Kolasinski,D. J. Mabry,J. V. Osborn,S. H. Penzin,E. R. Schnauss,Harlan E. Spence,Daniel N. Baker,Richard D. Belian,Theodore A. Fritz,W. Ford,B. Laubscher,R. Stiglich,R. A. Baraze,M. F. Hilsenrath,W. L. Imhof,J. R. Kilner,J. Mobilia,D. H. Voss,A. Korth,M. Gll,K. Fisher,Manuel Grande,D. S. Hall +26 more
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RAPID: The imaging energetic particle spectrometer on CLUSTER
B. Wilken,W. I. Axford,Ioannis A. Daglis,P. W. Daly,W. Güttler,Wing-Huen Ip,A. Korth,G. Kremser,Stefano Livi,Vytenis M. Vasyliunas,Joachim Woch,Daniel N. Baker,Richard D. Belian,J. B. Blake,J. F. Fennell,Larry R. Lyons,H. Borg,Theodore A. Fritz,Fritz Gliem,R. Rathje,Manuel Grande,D. Hall,K. Kecsueméty,S. McKenna-Lawlor,Kalevi Mursula,P. Tanskanen,Zuyin Pu,I. Sandahl,E. T. Sarris,Manfred Scholer,Michael Schulz,F. Sørass,S. Ullaland +32 more
TL;DR: The RAPID spectrometer (Research with Adaptive Particle Imaging Detectors) for the Cluster mission is an advanced particle detector for the analysis of suprathermal plasma distributions in the energy range from 20-400 keV for electrons, 40 keV-1500 keV (4000 keV) for hydrogen, and 10 keV nucl-1-1500 kV (4,000 keV), for heavier ions as discussed by the authors.