Anatoly Leonovich, Dmitri Klimushkin, Vitalii Mazur

Magnetospheric MHD Oscillations (eBook, PDF)

A Linear Theory

• Format: PDF

Produktbeschreibung

Magnetospheric MHD Oscillations

A groundbreaking new theory of the magnetosphere

The magnetosphere is the region around Earth in which our planet's magnetic field exerts its influence to trap charged particles. Waves in this magnetosphere, known as magnetohydrodynamic (MHD) oscillations, are caused by interactions between these charged particles, Solar wind pulses, and the magnetic field. The predictable interval between these oscillations enables them to serve as tools for understanding the magnetospheric plasma which comprises the field.

Magnetospheric MHD Oscillations offers a comprehensive overview of the theory underlying these waves and their periodicity. Emphasizing the spatial structure of the oscillations, it advances a theory of MHD oscillation that promises to have significant ramifications in astronomy and beyond.

Magnetospheric MHD Oscillations readers will also find:

• Theorizing of direct relevance to current satellite missions, such as THEMIS and the Van Allen Probe
• In-depth discussion of topics including Alfven resonance, waveguides in plasma filaments, and many more
• Detailed appendices including key calculations and statistical parameters

Magnetospheric MDH Oscillations is ideal for plasma physicists, theoretical physicists, applied mathematicians, and advanced graduate students in these and related subfields.

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Produktdetails

• Verlag: Wiley-VCH
• Seitenzahl: 451
• Erscheinungstermin: 15. März 2024
• Englisch
• ISBN-13: 9783527845743
• Artikelnr.: 70236503

Autorenporträt

Anatoly Leonovich, PhD, was a Researcher at the Insitute of Solar-Terrestrial Physics, Russian Academy of Science, Irkutsk, Russia. He researched and published widely on the theory of magnetospheric magnetohydrodynamic oscillations.

Vitalii Mazur, PhD, was a renowned theoretical physicist at the Irkutsk Institute of Solar-Terrestrial Physics and held, at the same time, a professorship at the Irkutsk State University, Russia. His research was focused on the theory of magnetohydrodynamic oscillations of the Earth's magnetosphere. He supervised numerous students, among them the coauthors of this book Anatoly Leonovich and Dmitri Klimushkin.

Dmitri Klimushkin, PhD, is a Researcher at the Institute of Solar-Terrestrial Physics, Russian Academy of Science, Irkutsk, Russia. His research focuses on the wave-particle interactions in the magnetosphere.

Inhaltsangabe

1 HYDROMAGNETIC OSCILLATIONS IN HOMOGENEOUS PLASMA

2 MHD OSCILLATIONS IN 1D-INHOMOGENEOUS MODEL MAGNETOSPHERES
2.1 A qualitative picture of MHD wave propagation in a 1D-inhomogeneous plasma
2.2 Model of a smooth transition layer in a 1D-inhomogeneous plasma
2.3 FMS wave reflected from the transition layer. Alfvén resonance
2.4 Alfvén resonance excited by a wave impulse
2.5 Energy balance in Alfvén resonance
2.6 FMS wave reflected from the transition layer in a "warm" plasma
2.7 Alfvén resonance in non-ideal plasma
2.8 FMS waveguide
2.9 Waveguide for quasilongitudinal Alfvén waves
2.10 Waveguide for kinetic Alfvén waves
2.11 Waveguide for kinetic Alfvén and FMS waves in a "warm" plasma
2.12 Waveguides in plasma filaments
2.13 FMS wave passing through a tangential discontinuity
2.14 Unstable MHD shear flows
2.15 Geotail boundary instability
2.16 Geotail LLBL instability
2.17 MHD oscillation field penetrating from the magnetosphere to ground

3 MHD OSCILLATIONS IN 2D-INHOMOGENEOUS MODELS
3.1 Resonance between FMS and kinetic Alfvén waves
3.2 Alfvén resonance in an axisymmetric magnetosphere
3.3 Resonant Alfvén waves excited by broadband sources
3.4 Magnetosonic resonance in a dipole magnetosphere
3.5 FMS oscillations in a dipole-like magnetosphere
3.6 FMS resonators in Earth?s magnetosphere
3.7 High-m Alfvén waves in a dipole-like magnetosphere
3.8 Oscillations at Earth surface due to high-m Alfvén waves
3.9 Linear transformation of standing high-m Alfvén waves
3.10 Resonator for high-m Alfvén waves near the plasmapause
3.11 High-m Alfvén waves from stochastic sources
3.12 High-m Alfvén waves from correlated sources
3.13 Model equation for high-m Alfvén waves
3.14 Alfvén oscillations from a localised source
3.15 High-m Alfvén oscillations from a pulse source
3.16 Ballooning instability of MHD oscillations in the current sheet
3.17 Coupled modes of MHD oscillations in the geotail

4 MHD OSCILLATIONS IN 3D-INHOMOGENEOUS MODELS
4.1 MHD oscillations in 3D-inhomogeneous magnetosphere

5 Conclusion

6 Appendixes