Midlatitude Ionospheric Dynamics and Disturbances.

Published by the American Geophysical Union as part of the Geophysical Monograph Series. Filling the need for a 20-year lag in substantial consideration of the midlatitude ionosphere, this volume focuses on work that takes advantage of GPS and UV imaging from satellites over the past decade, two met...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Kintner, Paul M.
Otros Autores: Coster, A. J. (Anthea J.), Fuller-Rowell, Tim, Mannucci, Antony J., Mendillo, M. (Michael), Heelis, Roderick
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken : Wiley, 2013.
Colección:Geophysical monograph ; 181.
Temas:
Ionosphere > Research.
Ionospheric storms.
Sudden ionospheric disturbances.
Space environment.
Ionosphère > Recherche.
Tempêtes ionosphériques.
Perturbations ionosphériques brusques.
Environnement spatial.
Ionosphere > Research
Ionospheric storms
Space environment
Sudden ionospheric disturbances
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Title Page; Contents; Preface; Midlatitude Ionospheric Dynamics and Disturbances: Introduction; Section I: Characterization of Midlatitude Storms; Review and Overview; Ionospheric Storms at Mid-Latitude: A Short Review; The Mid-Latitude Trough-Revisited; Assimilation of Observations With Models to Better Understand Severe Ionospheric Weather at Mid-Latitudes; Low- and Middle-Latitude Ionospheric Dynamics Associated With Magnetic Storms; A Data-Model Comparative Study of Ionospheric Positive Storm Phase in the Midlatitude F Region; Recent Results
  • High-Resolution Observations of Subauroral Polarization Stream-Related Field Structures During a Geomagnetic Storm Using Passive RadarIonization Dynamics During Storms of the Recent Solar Maximum; Mapping the Time-Varying Distribution of High-Altitude Plasma During Storms; Section II: Electric Field Coupling From the Heliosphere and Inner Magnetosphere; Review and Overview; Interplanetary Causes of Middle Latitude Ionospheric Disturbances; Ionospheric-Magnetospheric-Heliospheric Coupling: Storm-Time Thermal Plasma Redistribution; Recent Results
  • The Linkage Between the Ring Current and the Ionosphere SystemStorm Phase Dependence of Penetration of Magnetospheric Electric Fields to Mid and Low Latitudes; Relating the Interplanetary-Induced Electric Fields With the Low-Latitude Zonal Electric Fields Under Geomagnetically Disturbed Conditions; Simulation of PPEF Effects in Dayside Low-Latitude Ionosphere for the October 30, 2003, Superstorm; Impact of the Neutral Wind Dynamo on the Development of the Region 2 Dynamo; Section III: Thermospheric Control of the Mid-Latitude Ionosphere; Review and Overview
  • Global Modeling of Storm-Time Thermospheric Dynamics and ElectrodynamicsThermospheric Dynamics at Low and Mid-Latitudes During Magnetic Storm Activity; Disturbed O/N2 Ratios and Their Transport to Middle and Low Latitudes; Storm Time Energy Budgets of the Global Thermosphere; Recent Results; Sources of F-Region Height Changes During Geomagnetic Storms at Mid Latitudes; Neutral Composition and Density Effects in the October-November 2003 Magnetic Storms
  • Optical and Radio Observations and AMIE/TIEGCM Modeling of Nighttime Traveling Ionospheric Disturbances at Midlatitudes During Geomagnetic StormsSection IV: Ionospheric Gradients, Irregularities and User Needs; A Digest of Electrodynamic Coupling and Layer Instabilities in the Nighttime Midlatitude Ionosphere; Irregularities Within Subauroral Polarization Stream-Related Troughs and GPS Radio Interference at Midlatitudes; DEMETER Satellite Observations of Plasma Irregularities in the Topside Ionosphere at Low, Middle, and Sub-Auroral Latitudes and Their Dependence on Magnetic Storms

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