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Magnetospheric Imaging -

Magnetospheric Imaging

Understanding the Space Environment through Global Measurements
Buch | Softcover
428 Seiten
2021
Elsevier Science Publishing Co Inc (Verlag)
978-0-12-820630-0 (ISBN)
CHF 205,95 inkl. MwSt
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Magnetospheric Imaging: Understanding the Space Environment through Global Measurements is a state-of-the-art resource on new and advanced techniques and technologies used in measuring and examining the space environment on a global scale. Chapters detail this emergent field by exploring optical imaging, ultraviolet imaging, energetic neutral atom imaging, X-ray imaging, radio frequency imaging, and magnetic field imaging. Each technique is clearly described, with details about the technologies involved, how they work, and both their opportunities and limitations. Magnetospheric imaging is still a relatively young capability in magnetospheric research, hence this book is an ideal resource on this burgeoning field of study.

This book is a comprehensive resource for understanding where the field stands, as well as providing a stepping stone for continued advancement of the field, from developing new techniques, to applying techniques on other planetary bodies.

Yaireska Collado-Vega is a scientist and the director of the Moon to Mars Space Weather Office. The Moon to Mars Space Weather Office (M2M) was established to support NASA’s Space Radiation Analysis Group (SRAG) with human space exploration activities by providing expert based analysis of the space radiation environment. The office also supports NASA robotic missions by providing space weather notifications and anomaly assessments. Other parts of her research interest involve identifying Kelvin-Helmholtz Instability boundary waves and Flux Transfer Events at the Earth’s magnetopause boundary. She is also part of the development of a Soft X-Ray Magnetosphere Imager inter-divisional team at NASA GSFC. She has worked for NASA for 17 years. Dennis Gallagher has worked for NASA since 1984. He has worked in a variety of areas including the study of low frequency plasma waves, including ion acoustic waves, terrestrial micropulsations, wave-packet bursts upstream of the Jovian bow shock, and dust impacts during transit of the Saturnian ring plane. His primary work has involved the study of cold plasma transport, modeling, and imaging. Harald Frey is a Research Physicist at Berkeley’s Space Sciences Laboratory. His research interests in space physics concentrate on the connection between the outer magnetosphere and the ionosphere of Earth established by plasma processes in the upper atmosphere and ionosphere. This includes observations of aurora and airglow, as well as the combination of satellite and ground data and investigating the dynamics and creation of auroral arcs. Simon Wing has more than 20 years’ experience in space physics and space weather. He has authored and co-authored over 100 papers and over 300 talks, and developed the Wing Kp Model that runs at several space weather centers around the world. He also developed a technique for imaging plasma sheet ion properties from ionospheric observations. He is currently a Principal Staff Physicist at the Johns Hopkins University Applied Physics Laboratory.

1. Ground-based all-sky imaging techniques for auroral observations and space weather research Syau-Yun Hsieh, Kan Liou and Frank Morgan 2. Energetic neutral atom imaging of the terrestrial global magnetosphere Pontus C. Brandt, Romina Nikoukar, Robert DeMajistre, Robert C. Allen, Donald G. Mitchell, Edmond C. Roelof, Malamati Gkioulidou and Charles W. Parker 3. Making the invisible visible: X-ray imaging K.D. Kuntz, E. Atz, M.R. Collier, Y. Collado-Vega, H.K. Connor, F.S. Porter, D.G. Sibeck and B.M. Walsh 4. Radio-frequency imaging techniques for ionospheric, magnetospheric, and planetary studies Shing F. Fung, Robert F. Benson, Ivan A. Galkin, James L. Green, Bodo W. Reinisch, Paul Song and Vikas Sonwalkar 5. Magnetospheric imaging via ground-based optical instruments Gerard Fasel, John Mann and Fred Sigernes 6. The future of plasmaspheric extreme ultraviolet (EUV) imaging J. Goldstein, D.L. Gallagher, B.R. Sandel, M. Davis, P. Molyneux, T. Veach, G. Fletcher, E. Gullikson, D. Windt, D.D. Allred and R.S. Turley 7. Imaging the magnetosphere–ionosphere system with ground-based and in-situ magnetometers Kyle R. Murphy, Sarah N. Bentley, David M. Miles, Jasmine K. Sandhu and Andy W. Smith 8. Imaging the plasma sheet from ionospheric observations Simon Wing and Jay R. Johnson 9. Imaging Earth’s magnetospheric transient and background synchrotron emission with lunar near side radio arrays Alexander M. Hegedus

Erscheinungsdatum
Zusatzinfo Approx. 125 illustrations (125 in full color); Illustrations
Sprache englisch
Maße 191 x 235 mm
Gewicht 860 g
Themenwelt Naturwissenschaften Geowissenschaften Geophysik
Naturwissenschaften Physik / Astronomie Astronomie / Astrophysik
Naturwissenschaften Physik / Astronomie Elektrodynamik
ISBN-10 0-12-820630-6 / 0128206306
ISBN-13 978-0-12-820630-0 / 9780128206300
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