"This book will explore the fundamentals of spacecraft charging: why it occurs, when it occurs, where it occurs, how to measure it, and its side effects. It will discuss state-of-the-art spacecraft charging technologies, which will be explained in detailand with pedagogical emphasis. Exercises for further learning will be included to facilitate a deeper understanding of the material. It will be of interest to advanced undergraduate and graduate students, in addition to researchers working in physics andengineering keen to understand more about spacecraft interactions with space plasmas. Key Features: Translates complex terminology into accessible language; Authored by experts in the field; Provides worked examples and exercises for further learning"--
This book will explore the fundamentals of spacecraft charging: why it occurs, when it occurs, where it occurs, how to measure it, and its side effects.
| Foreword |
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vii | |
| Biography |
|
ix | |
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1 | (10) |
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Chapter 2 Spacecraft Equilibrium Potential |
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|
11 | (8) |
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Chapter 3 Current Balance |
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|
19 | (6) |
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Chapter 4 How to Measure Spacecraft Potential |
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25 | (8) |
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Chapter 5 Secondary and Backscattered Electrons |
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33 | (10) |
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Chapter 6 Critical Temperature for the Onset of Spacecraft Charging |
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43 | (12) |
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Chapter 7 Importance of Surface Conditions |
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55 | (8) |
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Chapter 8 High-Level Spacecraft Potential |
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63 | (8) |
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Chapter 9 Spacecraft Charging in Sunlight |
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71 | (10) |
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Chapter 10 The Monopole-Dipole Model |
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81 | (10) |
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Chapter 11 The Question of Independence on Ambient Electron Density in Spacecraft Charging |
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91 | (10) |
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Chapter 12 Spacecraft Charging Induced by Beam Emissions |
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101 | (14) |
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Chapter 13 Mitigation Methods |
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115 | (10) |
| Index |
|
125 | |
SHU T. LAI earned his Ph.D. and M.A. from Brandeis University
and his B.Sc. from the University of Hong Kong. He earned his
Certificate of Special Studies in Administration and Management from
Harvard University. He did research at AFRL. He is currently affiliated
with the Space Propulsion Laboratory, Massachusetts Institute of
Technology, and the Institute of Scientific Research, Boston College. A
recognized leader in spacecraft interactions with space plasmas, he has
written more than one hundred publications and owns three patents. He is
a Fellow of the Institute of Electrical Engineers (IEEE), a Fellow of the
Institute of Physics, and a Fellow of the Royal Astronomical Society. He
has served as the Chair of the AIAA Atmospheric and Space
Environments Technical Committee and the Chair of the AIAA
Atmospheric and Space Environments Standards Committee. He is now
serving as a Senior Editor of IEEE Transactions on Plasma Science.
REZY PRADIPTA earned his Ph.D. and S.M. in Nuclear Science and
Engineering and his S.B. in Physics from the Massachusetts Institute of
Technology. He did his postdoctoral work at the Institute for Scientific
Research, Boston College. He is currently a senior research scientist at
the Institute for Scientific Research, Boston College. His research is about
space plasma phenomena and their potential impacts on technological
systems using observations from multi-diagnostic instruments such as
radars and Global Navigation Satellite Systems (GNSS). These space
phenomena include ionospheric plasma density irregularities, traveling
ionospheric disturbances (TIDs), acoustic-gravity waves (AGWs), and
equatorial plasma bubbles (EPBs). In addition to research activities, he
also teaches an upper level undergraduate course (Space Weather and
Consequences) at the Department of Earth and Environmental Science,
Boston College.
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