Search Results - "Looper, Mark D."

Long‐Term Variations of Quasi‐Trapped and Trapped Electrons in the Inner Radiation Belt Observed by DEMETER and SAMPEX by Zhang, Kun, Li, Xinlin, Xiang, Zheng, Khoo, Leng Ying, Zhao, Hong, Looper, Mark D., Temerin, Michael A., Sauvaud, Jean‐André

“…Electrons in the Earth's radiation belts can be categorized into three populations: precipitating, quasi‐trapped, and trapped. We use data from the Detection…”
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Precise Detections of Solar Particle Events and a New View of the Moon by Wilson, Jody K., Spence, Harlan E., Schwadron, Nathan A., Case, Anthony W., Looper, Mark D., Jordan, Andrew P., Wet, Wouter, Kasper, Justin

“…We have invented a new method for detecting solar particle events using data from the Cosmic Ray Telescope for the Effects of Radiation (CRaTER) on the Lunar…”
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Absorbed doses from GCR and albedo particles emitted by the lunar surface by Zaman, Fahad, Townsend, Lawrence W., de Wet, Wouter C., Schwadron, Nathan A., Spence, Harlan E., Wilson, Jody K., Jordan, Andrew P., Smith, Sonya S., Looper, Mark D.

“…When high energy galactic cosmic ray (GCR) particles collide with the lunar regolith, they eject “albedo” particles from the surface. The albedo particles…”
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Proton aurora and relativistic electron microbursts scattered by electromagnetic ion cyclotron waves by Shumko, Mykhaylo, Gallardo-Lacourt, Bea, Halford, Alexa Jean, Blum, Lauren W., Liang, Jun, Miyoshi, Yoshizumi, Hosokawa, Keisuke, Donovan, Eric, Mann, Ian R., Murphy, Kyle, Spanswick, Emma L., Blake, J. Bernard, Looper, Mark D., Gillies, D. Megan

“…Charged particle precipitation from Earth’s magnetosphere results in stunning displays of the aurora and energy transfer into the atmosphere. Some of this…”
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First On-Orbit Results from the AeroCube-10 Space Solar Cell Experiment by Lee, Justin H., Liu, Simon H., Mann, Colin J., Nocerino, John C., Walker, Don, Blake, J. Bernard, Crain, William R., Berman, Ariel L., Kinum, Garrett, Chin, Victor L., Looper, Mark D., Mellick, Michael, Tardif, Jacqueline A., Coffman, Christopher M., Hardy, Brian S., Hinkley, David A.

“…AeroCube-10 is a two-CubeSat mission built and operated by The Aerospace Corporation. Among several payloads is a space solar cell experiment designed to…”
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Radiation Hardness of Memristive Junctions by Tong, William M, Yang, J Joshua, Kuekes, Philip J, Stewart, Duncan R, Williams, R Stanley, DeIonno, Erica, King, Everett E, Witczak, Steven C, Looper, Mark D, Osborn, Jon V

“…Semiconducting TiO 2 displays non-volatile multi-state, hysteretic behavior in its I-V characteristics that can be exploited as a memory material in a…”
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Radiation effects studies on thin film TiO2 memristor devices by DeIonno, Erica, Looper, Mark D., Osborn, Jon V., Barnaby, Hugh J., Tong, William M.

“…Memristor devices have been identified as potential replacements for a variety of memory applications and may also be suitable for space applications. In this…”
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Response of the inner radiation belt to the violent Sun-Earth connection events of October–November 2003 by Looper, M. D., Blake, J. B., Mewaldt, R. A.

“…We report observations of the response of the low‐altitude radiation population below L = 3 during and after the strong solar energetic particle events and…”
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Radiation Hardness of rm TiO 2 Memristive Junctions by Tong, William M, Yang, JJoshua, Kuekes, Philip J, Stewart, Duncan R, Williams, RStanley, DeIonno, Erica, King, Everett E, Witczak, Steven C, Looper, Mark D, Osborn, Jon V

“…Semiconducting rm TiO 2 displays non-volatile multi-state, hysteretic behavior in its I hbox - - V characteristics that can be exploited as a memory material…”
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Geomagnetically trapped antiprotons by Selesnick, R. S., Looper, M. D., Mewaldt, R. A., Labrador, A. W.

“…The distribution of geomagnetically trapped antiprotons from decay of cosmic ray albedo antineutrons is described theoretically. The calculation includes…”
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Long-term variations of quasi-trapped and trapped electrons in the inner radiation belt observed by DEMETER and SAMPEX by Zhang, Kun, Li, Xinlin, Xiang, Zheng, Khoo, Leng Ying, Zhao, Hong, Looper, Mark D, Temerin, Michael A, Sauvaud, Jean-André

“…Electrons in the Earth's radiation belts can be categorized into three populations: precipitating, quasi-trapped and trapped. We use data from the DEMETER and…”
Get full text