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Low-frequency waves in space plasmas /
Low-frequency waves in space plasmas have been studied for several decades, and our knowledge gain has been incremental with several paradigm-changing leaps forward. In our solar system, such waves occur in the ionospheres and magnetospheres of planets, and around our Moon. They occur in the solar w...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Washington, D.C. : Hoboken, New Jersey :
AGU: American Geophysical Union ; John Wiley and Sons, Inc.,
[2016]
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| Colección: | Geophysical monograph ;
216. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Title Page ; Copyright Page; CONTENTS; CONTRIBUTORS; PREFACE; Section I Ionosphere ; Chapter 1 Energetic Particle-Driven ULF Waves in the Ionosphere ; 1.1. INTRODUCTION; 1.2. EARLY RADAR OBSERVATIONS; 1.3. SUPERDARN OBSERVATIONS; 1.4. DOPPLER SOUNDER OBSERVATIONS; 1.5. OBSERVATIONS FROM ALTERNATIVE INSTRUMENTATION; 1.6. SUMMARY; ACKNOWLEDGMENTS; REFERENCES; Chapter 2 ULF Waves and Transients in the Topside Ionosphere ; 2.1. INTRODUCTION; 2.2. ULF WAVE OBSERVATIONS IN LEO MISSIONS; 2.3. MODELING THE RELATIONSHIP BETWEEN THE ULF MAGNETIC DISTURBANCES ABOVE THE IONOSPHERE AND ON THE GROUND
- 2.4. POSSIBILITY OF ELECTROMAGNETIC SOUNDING OF PLANETARY INTERIOR FROM LEO PROBE 2.5. ULF RESPONSE IN THE UPPER IONOSPHERE TO ATMOSPHERIC ELECTRIC DISCHARGES; 2.6. DISCUSSION: PROSPECTS OF FURTHER STUDIES; ACKNOWLEDGMENTS; REFERENCES; Chapter 3 Low-Frequency Waves in HF Heating of the Ionosphere ; 3.1. INTRODUCTION; 3.2. MODELING LOW-FREQUENCY WAVES IN HF HEATING ; 3.3. HEATING IN THE HIGH-LATITUDE IONOSPHERE ; 3.4. HF HEATING IN THE MID-LATITUDE IONOSPHERE ; 3.5. KINETIC PROCESSES IN HF HEATING; 3.6. CONCLUSION; ACKNOWLEDGMENT; REFERENCES; Section II Inner Magnetosphere
- Chapter 4 ULF Waves in the Inner Magnetosphere 4.1. INTRODUCTION; 4.2. FAST MODE WAVES; 4.3. EXTERNALLY EXCITED STANDING WAVES; 4.4. INTERNALLY EXCITED STANDING ALFVÉN WAVES; 4.5. CONCLUDING REMARKS; ACKNOWLEDGEMENT; REFERENCES; Chapter 5 EMIC Waves in the Inner Magnetosphere ; 5.1. INTRODUCTION; 5.2. EMIC WAVE GENERATION AND PROPAGATION TO THE GROUND; 5.3. EMIC WAVES CLOSE TO THE PLASMAPAUSE: STATISTICS; 5.4. EMIC WAVE DUCTING IN THE IONOSPHERE; 5.5. COMPARISON OF GROUND AND SPACE OCCURRENCE RATES; 5.6. SUMMARY AND CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES
- Chapter 6 Relationship between Chorus and Plasmaspheric Hiss Waves 6.1. INTRODUCTION; 6.2. MODELING THE EVOLUTION OF CHORUS INTO PLASMASPHERIC HISS; 6.3. COINCIDENT OBSERVATION OF CHORUS AND HISS MODULATION; 6.4. IMAGING THE CHORUS SOURCE REGION USING PULSATING AURORA; 6.5. LOW-FREQUENCY HISS ; 6.6. HIGH L CHORUS-HISS COINCIDENT OBSERVATIONS ; 6.7. SUMMARY AND DISCUSSION; ACKNOWLEDGMENTS; REFERENCES; Section III Auroral Region ; Chapter 7 ULF Waves above the Nightside Auroral Oval during Substorm Onset ; 7.1. INTRODUCTION; 7.2. WHAT IS A SUBSTORM?
- 7.3. DISCOVERY OF A ULF WAVE EPICENTRE TO SUBSTORM ONSET 7.4. ULF WAVE EVOLUTION AND CHARACTERISTICS AT ONSET; 7.5. AURORAL BEADS, AZIMUTHAL AURORAL FLUCTUATIONS, AND THE SUBSTORM; 7.6. AZIMUTHAL AURORAL FORMS AS MEASURED BY THE THEMIS ASIS; 7.7. SPATIAL CHARACTERISTICS OF ULF WAVES AT SUBSTORM ONSET; 7.8. WHAT PHYSICAL MECHANISMS FIT THE AZIMUTHAL STRUCTURING AND EXPONENTIAL GROWTH OF THE SUBSTORM ONSET ARC?; 7.9. CONCLUSION; ACKNOWLEDGMENTS; REFERENCES; Chapter 8 Relationship between Alfvén Wave and Quasi-Static Acceleration in Earth's Auroral Zone ; 8.1. INTRODUCTION