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Full Description
Geospace features highly dynamic populations of charged particles with a wide range of energies from thermal to ultra-relativistic. Influenced by magnetic and electric fields in the terrestrial magnetosphere driven by solar wind forcing, changes in the numbers and energies of these particles lead to a variety of space weather phenomena, some of which are detrimental to space infrastructure. This book presents an overview of the latest discoveries and current scientific understanding of the coupling of electromagnetic waves and charged particles during magnetic storms, and explains the observed dynamics of these particle populations. The book furthermore includes investigations relevant to understanding and forecasting this space environment and the adverse impacts of space weather.
High-energy electrons and ions in the Van Allen radiation belts and the ring current are of particular interest and importance with regard to the operation of space-based technological infrastructure upon which 21st century civilisation increasingly relies. This book presents the latest research on the sources, transport, acceleration and loss of these energetic particle populations, as well as their coupling during geospace magnetic storms.
Contents
Preface
Ian R. Mann: Waves, Particles, and Storms in Geospace: An Introduction
1: D. N. Baker: Wave and Particle Measurements in Earth's Neighborhood: A Historical Mission Overview
2: Kazue Takahashi and Yoshizumi Miyoshi: Introduction to Wave-Particle Interactions and their Impact on Energetic Particles in Geospace
3: Geoffrey D. Reeves and Ioannis A. Daglis: Geospace Magnetic Storms and the Van Allen Radiation Belts
4: Scot R. Elkington and Theodore E. Sarris: The Role of Pc-5 ULF Waves in the Radiation Belts: Current Understanding and Open Questions
5: S. Bourdarie, V. K. Jordanova, M. Liemohn, and T. P. O'Brien: Modeling the Energetic Particles of the Inner Magnetosphere
6: Georgios Balasis, Constantinos Papadimitriou, Eftyhia Zesta, and Viacheslav Pilipenko: Monitoring ULF Waves from Low Earth Orbit Satellites
7: Colin Waters and Fred Menk: Monitoring Magnetospheric Waves from the Ground
8: Jacob Bortnik, Richard M. Thorne, Wen Li, and Xin Tao: Chorus Waves in Geospace and their Influence on Radiation Belt Dynamics
9: Richard B. Horne, Nigel P. Meredith, Sarah A. Glauert, and Tobias Kersten: Wave-Driven Diffusion in Radiation Belt Dynamics
10: Maria E. Usanova and Ian R. Mann: Understanding the Role of EMIC Waves in Radiation Belt and Ring Current Dynamics: Recent Advances
11: O. Santolík: Multi-dimensional Analysis of Whistler-mode Waves in the Radiation Belt Region
12: D. L. Turner and V. Angelopoulos: Extreme Variability of Relativistic Electrons in Earth's Outer Radiation Belt: An Overview and Recent Revelations
13: Y. Miyoshi, R. Kataoka, and Y. Ebihara: Flux Enhancement of Relativistic Electrons Associated with Substorms
14: M. A. Clilverd, C. J. Rodger, M. E. Andersson, A. Seppälä, and P. T. Verronen: Linkages Between the Radiation Belts, Polar Atmosphere and Climate: Electron Precipitation Through Wave Particle Interactions
15: N. Krupp, E. Roussos, C. Paranicas, A. Sicard, G. Hospodarsky, and Y. Shprits: Energetic Particles and Waves in the Outer Planet Radiation Belts
16: C. A. Kletzing: Fields and Waves Influencing Radiation Belt Dynamics -- Results from the Van Allen Probes Mission
17: Harlan E. Spence, Geoff D. Reeves, and Ramona Kessel: An Overview of Early Results from the Radiation Belt Storm Probes Energetic Particle, Composition, and Thermal Plasma Suite on NASA's Van Allen Probes Mission
