T
T. L. Booker
Researcher at Southwest Research Institute
Publications - 4
Citations - 524
T. L. Booker is an academic researcher from Southwest Research Institute. The author has contributed to research in topics: Microchannel plate detector & Solar wind. The author has an hindex of 4, co-authored 4 publications receiving 499 citations.
Papers
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Journal ArticleDOI
Cassini plasma spectrometer investigation
D. T. Young,Jean-Jacques Berthelier,Michel Blanc,James L. Burch,Andrew J. Coates,Raymond Goldstein,Manuel Grande,T. W. Hill,Robert E. Johnson,Väinö Kelha,David J. McComas,E. C. Sittler,K. R. Svenes,Karoly Szego,P. Tanskanen,Kimmo Ahola,D. Anderson,S. Bakshi,Raúl A. Baragiola,B. L. Barraclough,R. K. Black,Scott Bolton,T. L. Booker,R. P. Bowman,P. J. Casey,F. J. Crary,D. M. Delapp,G. Dirks,N. Eaker,Herbert O. Funsten,J. D. Furman,J. T. Gosling,H. Hannula,Christer Holmlund,H. Huomo,J. M. Illiano,P. Jensen,M. A. Johnson,D. R. Linder,T. Luntama,Sylvestre Maurice,K. McCabe,Kalevi Mursula,B. T. Narheim,Jane E. Nordholt,Alun Preece,J. Rudzki,A. Ruitberg,Kerrington D. Smith,Sándor Szalai,Michelle F. Thomsen,Kai Viherkanto,J. Vilppola,T. Vollmer,T. E. Wahl,M. Wüest,Tomi Ylikorpi,C. Zinsmeyer +57 more
TL;DR: The Cassini Plasma Spectrometer (CAPS) as discussed by the authors is a three-dimensional mass-resolved measurements of the full variety of plasma phenomena found in Saturn's magnetosphere.
Journal ArticleDOI
Plasma Experiment for Planetary Exploration (PEPE)
D. T. Young,Jane E. Nordholt,James L. Burch,David J. McComas,David J. McComas,R. P. Bowman,R. A. Abeyta,J. F. Alexander,J. R. Baldonado,P. Barker,R. K. Black,T. L. Booker,P. J. Casey,L. Cope,F. J. Crary,J. P. Cravens,Herbert O. Funsten,Raymond Goldstein,Raymond Goldstein,D. R. Guerrero,S. F. Hahn,Jennifer Hanley,B. P. Henneke,E. F. Horton,David J. Lawrence,K. McCabe,Daniel B. Reisenfeld,Daniel B. Reisenfeld,R. P. Salazar,M. Shappirio,M. Shappirio,S. A. Storms,C. Urdiales,J. H. Waite +33 more
TL;DR: The Plasma Experiment for Planetary Exploration (PEPE) as discussed by the authors is a single, low-resource instrument that uses an electrostatically swept field-of-view and a linear electric field time of flight mass spectrometer.
Journal ArticleDOI
A Space-Borne Plasma Analyser for Three-Dimensional Measurements of the Velocity Distribution
TL;DR: In this article, a new type of plasma analyser, capable of covering the three-dimensional energy distribution of charged particles from a spinning spacecraft, has been built for the AMPTE and GIOTTO spacecraft.
Book ChapterDOI
Miniaturized Optimized Smart Sensor (MOSS) for Space Plasma Diagnostics
D. T. Young,R. P. Bowman,R. K. Black,T. L. Booker,P. J. Casey,G. Dirks,D. R. Guerrero,K. E. Smith,J. H. Waite,M. Wüest +9 more
TL;DR: In this paper, a prototype Miniaturized Optimized Smart Sensor (MOSS) for diagnostic measurements of space plasmas was designed, constructed, and tested, and the prototype weighs 410 grams and uses 220 mW of power.