D
D. Leneman
Researcher at University of California, Los Angeles
Publications - 5
Citations - 1144
D. Leneman is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Electron precipitation & Seismometer. The author has an hindex of 4, co-authored 5 publications receiving 773 citations. Previous affiliations of D. Leneman include University of California, San Diego.
Papers
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Journal ArticleDOI
The Magnetospheric Multiscale Magnetometers
Christopher T. Russell,Brian J. Anderson,Wolfgang Baumjohann,Kenneth R. Bromund,D. Dearborn,David Fischer,Guan Le,Hannes K. Leinweber,D. Leneman,Werner Magnes,J. D. Means,Mark B. Moldwin,Rumi Nakamura,D. R. Pierce,Ferdinand Plaschke,Kathryn Rowe,James A. Slavin,Robert J. Strangeway,Roy B. Torbert,Christian Hagen,Irmgard Jernej,Aris Valavanoglou,Ingo Richter +22 more
TL;DR: To achieve mission objectives, the calibration determined on the ground will be refined in space to ensure all eight magnetometers are precisely inter-calibrated, and the information flow that provides the data on the rapid time scale needed for mission success is described.
Journal ArticleDOI
InSight Auxiliary Payload Sensor Suite (APSS)
Don Banfield,J. A. Rodriguez-Manfredi,Christopher T. Russell,Kathryn Rowe,D. Leneman,H. R. Lai,P. Cruce,J. D. Means,Catherine L. Johnson,Catherine L. Johnson,Anna Mittelholz,Steve Joy,Peter Chi,Ioannis G. Mikellides,S. Carpenter,Sara Navarro,Eduardo Sebastián,Javier Gómez-Elvira,J. Torres,L. Mora,V. Peinado,A. Lepinette,K. Hurst,Philippe Lognonné,Sue Smrekar,W. B. Banerdt +25 more
TL;DR: The auxiliary payload sensor suite (APSS) as mentioned in this paper includes a magnetometer, an atmospheric pressure sensor, and a pair of wind and air temperature sensors for the InSight mission to Mars.
Journal ArticleDOI
The ELFIN Mission
V. Angelopoulos,V. Angelopoulos,E. Tsai,E. Tsai,L. Bingley,L. Bingley,C. Shaffer,Drew Turner,Drew Turner,Andrei Runov,Andrei Runov,Wen Li,Wen Li,Wen Li,Jiang Liu,Jiang Liu,Anton Artemyev,Anton Artemyev,Xiao-Jia Zhang,Xiao-Jia Zhang,Robert J. Strangeway,Robert J. Strangeway,Richard E. Wirz,Yuri Shprits,Yuri Shprits,V. A. Sergeev,R. Caron,R. Caron,M. Chung,M. Chung,P. Cruce,P. Cruce,W. Greer,W. Greer,Eric Grimes,Eric Grimes,K. Hector,K. Hector,K. Hector,M. J. Lawson,M. J. Lawson,D. Leneman,D. Leneman,Emmanuel Masongsong,Emmanuel Masongsong,C. L. Russell,C. L. Russell,C. Wilkins,C. Wilkins,D. Hinkley,J. B. Blake,N. Adair,N. Adair,M. Allen,M. Allen,M. Allen,M. Anderson,M. Anderson,M. Arreola-Zamora,M. Arreola-Zamora,J. Artinger,J. Artinger,J. Asher,J. Asher,J. Asher,D. Branchevsky,D. Branchevsky,D. Branchevsky,M. R. Capitelli,M. R. Capitelli,R. Castro,R. Castro,R. Castro,G. Chao,G. Chao,G. Chao,N. Chung,N. Chung,M. Cliffe,M. Cliffe,K. Colton,K. Colton,Catherine E. Costello,Catherine E. Costello,D. Depe,D. Depe,B. W. Domae,B. W. Domae,S. Eldin,S. Eldin,L. Fitzgibbon,L. Fitzgibbon,A. Flemming,A. Flemming,A. Flemming,Ian Fox,Ian Fox,D. M. Frederick,D. M. Frederick,A. Gilbert,A. Gilbert,A. Gildemeister,A. Gildemeister,A. Gildemeister,A. Gonzalez,A. Gonzalez,B. Hesford,B. Hesford,B. Hesford,Susmit Jha,Susmit Jha,N. Kang,N. Kang,J. King,J. King,R. Krieger,R. Krieger,R. Krieger,K. Lian,K. Lian,K. Lian,J. Mao,J. Mao,E. McKinney,E. McKinney,E. McKinney,J. P. Miller,J. P. Miller,A. Norris,M. Nuesca,M. Nuesca,A. Palla,A. Palla,E. S. Y. Park,E. S. Y. Park,C. E. Pedersen,C. E. Pedersen,Z. Qu,Z. Qu,R. Rozario,R. Rozario,E. Rye,E. Rye,R. Seaton,R. Seaton,A. Subramanian,A. Subramanian,A. Subramanian,S. R. Sundin,S. R. Sundin,A. Tan,A. Tan,W. Turner,W. Turner,A. J. Villegas,A. J. Villegas,M. Wasden,M. Wasden,G. Wing,G. Wing,C. Wong,C. Wong,E. Xie,E. Xie,S. Yamamoto,S. Yamamoto,R. Yap,R. Yap,A. Zarifian,A. Zarifian,A. Zarifian,G. Y. Zhang,G. Y. Zhang,G. Y. Zhang +173 more
TL;DR: Observations suggest that the ionosphere plays a significant role in modifying magnetospheric electron fluxes and wave-particle interactions.
Journal ArticleDOI
The ELFIN Mission
V. Angelopoulos,V. Angelopoulos,E. Tsai,E. Tsai,L. Bingley,L. Bingley,C. Shaffer,Drew Turner,Drew Turner,Andrei Runov,Andrei Runov,Wen Li,Wen Li,Wen Li,Jiang Liu,Jiang Liu,Anton Artemyev,Anton Artemyev,Xiao-Jia Zhang,Xiao-Jia Zhang,Robert J. Strangeway,Robert J. Strangeway,Richard E. Wirz,Yuri Shprits,Yuri Shprits,V. A. Sergeev,R. Caron,R. Caron,M. Chung,M. Chung,P. Cruce,P. Cruce,W. Greer,W. Greer,Eric Grimes,Eric Grimes,K. Hector,K. Hector,K. Hector,M. J. Lawson,M. J. Lawson,D. Leneman,D. Leneman,Emmanuel Masongsong,Emmanuel Masongsong,C. L. Russell,C. L. Russell,C. Wilkins,C. Wilkins,D. Hinkley,J. B. Blake,N. Adair,N. Adair,M. Allen,M. Allen,M. Allen,M. Anderson,M. Anderson,M. Arreola-Zamora,M. Arreola-Zamora,J. Artinger,J. Artinger,J. Asher,J. Asher,J. Asher,D. Branchevsky,D. Branchevsky,D. Branchevsky,M. R. Capitelli,M. R. Capitelli,R. Castro,R. Castro,R. Castro,G. Chao,G. Chao,G. Chao,N. Chung,N. Chung,M. Cliffe,M. Cliffe,K. Colton,K. Colton,Catherine E. Costello,Catherine E. Costello,D. Depe,D. Depe,B. W. Domae,B. W. Domae,S. Eldin,S. Eldin,L. Fitzgibbon,L. Fitzgibbon,A. Flemming,A. Flemming,A. Flemming,Ian Fox,Ian Fox,D. M. Frederick,D. M. Frederick,A. Gilbert,A. Gilbert,A. Gildemeister,A. Gildemeister,A. Gildemeister,A. Gonzalez,A. Gonzalez,B. Hesford,B. Hesford,B. Hesford,Susmit Jha,Susmit Jha,N. Kang,N. Kang,J. King,J. King,R. Krieger,R. Krieger,R. Krieger,K. Lian,K. Lian,K. Lian,J. Mao,J. Mao,E. McKinney,E. McKinney,E. McKinney,J. P. Miller,J. P. Miller,A. Norris,M. Nuesca,M. Nuesca,A. Palla,A. Palla,E. S. Y. Park,E. S. Y. Park,C. E. Pedersen,C. E. Pedersen,Z. Qu,Z. Qu,R. Rozario,R. Rozario,E. Rye,E. Rye,R. Seaton,R. Seaton,A. Subramanian,A. Subramanian,A. Subramanian,S. R. Sundin,S. R. Sundin,A. Tan,A. Tan,W. Turner,W. Turner,A. J. Villegas,A. J. Villegas,M. Wasden,M. Wasden,G. Wing,G. Wing,C. Wong,C. Wong,E. Xie,E. Xie,S. Yamamoto,S. Yamamoto,R. Yap,R. Yap,A. Zarifian,A. Zarifian,A. Zarifian,G. Y. Zhang,G. Y. Zhang,G. Y. Zhang +173 more
TL;DR: The Electron Loss and Fields Investigation with a Spatio-temporal Ambiguity-Resolving option (ELFIN-STAR) as discussed by the authors is a 3U CubeSats with a nearly circular, low-Earth (∼450 km altitude) orbit.
Journal ArticleDOI
Scientific Objectives of Electron Losses and Fields INvestigation Onboard Lomonosov Satellite
Yuri Shprits,Yuri Shprits,V. Angelopoulos,Christopher T. Russell,Robert J. Strangeway,Andrei Runov,Drew Turner,R. Caron,P. Cruce,D. Leneman,Ingo Michaelis,Vasily Petrov,Mikhail Panasyuk,I. V. Yashin,Alexander Drozdov,C. L. Russell,Vladimir Kalegaev,Ilya Nazarkov,J. H. Clemmons +18 more
TL;DR: In this paper, the energy spectrum of precipitating energetic electrons and ions is determined on board the Lomonosov satellite (ELFIN-L) project, together with other polar-orbiting and equatorial missions, to understand the mechanisms responsible for scattering these particles into the atmosphere.