Overview

The experimental study of magnetospheric processes consists of several disci- plines or methods, developing in two general directions. The first, internal trend covers the progress in experimental techniques and methods and re- search specific to this discipline. The other trend combines with other methods in a mutual attempt at understanding the boiling whirlpool of the disturbed magnetosphere. Investigations of auroral X-rays began after Van Allen's (1957) discovery of hard radiation in the upper atmosphere of the auroral zone, and are based on high latitude balloon observations. Scientific apparatus, payload equip- ment, and particular questions of scientific ballooning are discussed in Chap- ter 1. Chapter 2 concludes the internal trend of the subject by describing the problems of X-ray generation at the boundary of the atmosphere and propa- gation downward to balloon altitudes. Auroral X-rays are closely related to most of the processes of the disturbed magnetosphere through energetic auroral electrons; precipitating into the at- mosphere, the latter create bremsstrahlung photons able to penetrate to an at- mospheric depth of 10- 20 g cm - 2. In quiet periods auroral electron flux ex- ists only in embryo, as a hot plasma layer at the inner edge of the plasma sheet: in general it is a transient phenomenon caused by magnetospheric distur- bances and carrying valuable information of the magnetospheric dynamics.

Full Product Details

Author:   Leonid L. Lazutin ,  Theodore J. Rosenberg
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Volume:   14
Weight:   0.445kg
ISBN:  

9783540153351

ISBN 10:   3540153357
Pages:   220
Publication Date:   01 October 1986
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

1 Balloon Experiment Technique.- 1.1 Launching Facilities.- 1.2 The Balloon in Space Research.- 1.3 Auroral X-Ray Scintillator Spectrometer.- 1.4 Payload Equipment.- 1.5 Ground-Based Support of Balloon Experiments.- 2 Auroral X-Rays: Generation and Transfer into the Atmosphere.- 2.1 Introduction.- 2.2 Photon Generation at the Atmospheric Boundary.- 2.2.1 Initial Conditions and Basic Equations.- 2.2.2 Results of Calculation.- 2.3 Calculation of X-Ray Propagation in the Atmosphere.- 2.3.1 Method of Calculation (Monte Carlo) for Homogeneous Precipitation.- 2.3.2 Calculation of Localized Precipitations.- 2.4 Transformation of X-Ray Flux and Energy Spectrum in the Atmosphere for Extended Regions of Precipitation.- 2.5 Results of Calculation of Photon Transport from Local Sources.- 2.6 X-Ray Angular Distribution.- 2.7 Calculation of Scintillator Spectrometer Efficiency.- 2.8 Practical Example of Electron Spectra Reconstruction.- 2.9 Conclusions and Recommendations.- 3 The Structure of Auroral X-Ray Events and Electron Fluxes in the Magnetosphere.- 3.1 General Features of X-Ray Events.- 3.1.1 Spatial and Temporal Characteristics.- 3.1.2 Energy Spectrum and the Relationship with Magnetospheric Activity.- 3.2 Classification of Auroral X-Ray Forms.- 3.3 Charged Particles in the Magnetosphere.- 3.3.1 The Magnetosphere Configuration.- 3.3.2 The Plasma Sheet.- 3.3.3 Trapped Radiation.- 3.4 Auroral Radiation.- 4 Auroral Electrons in the Midnight Sector and Magnetospheric Disturbances.- 4.1 Dynamic and Energetic Structure of the Magnetospheric Substorm.- 4.1.1 Substorm Phases.- 4.1.2 Energy Scheme of a Substorm. Case Study N1.- 4.2 Growth Phase.- 4.2.1 Auroral X-Ray Growth Phase Events.- 4.2.2 Growth Phase. Case Studies N1, N2, N3.- 4.2.3 The Problem of the Source.- 4.3 Breakup - An Explosive Onset in the Active Phase of a Substorm.- 4.3.1 X-Ray Breakup Events.- 4.3.2 Satellite Observations. Case Study N2.- 4.3.3 Tail Reconnection Models of Breakup.- 4.3.4 Alternative Models.- 4.4 Active Phase. Convection.- 4.4.1 Large-Scale Phenomena.- 4.4.2 Hard-Spectrum X-Ray Events.- 4.4.3 Case Study N1.- 4.5 Active Phase. Expansion.- 4.5.1 Discrete Aurora and Associated Phenomena.- 4.5.2 Long-Duration Precipitation Events. Case Study N2.- 4.5.3 Magnetospheric Tail During Substorm.- 4.5.4 The Boundary Between the Trapping and Tail Regions. Case Study N3.- 4.6 Auroral Region Model of Electron Acceleration and Precipitation During Substorms.- 5 Pulsations and Microbursts of Drifting Auroral Electron Precipitation.- 5.1 Morning Bay-Like Precipitations.- 5.2 Long-Period X-Ray Pulsations (1-20 min).- 5.2.1 The Morphology of Slow Pulsations.- 5.2.2 Ps6 Pulsations: Case Study N3.- 5.2.3 A Diffusion Model of Slow Variation of Particle Precipitation.- 5.3 Fast Pulsations and Impulses (3-60 s).- 5.4 Auroral X-Ray Microbursts.- 5.5 Precipitations During SC and SI.- 5.6 Interrelation of Pulsating Structures of Precipitating Auroral Electrons.- 5.7 Classification of the Microstructure of Electron Precipitation.- Conclusion.- References.- Subjectlndex.

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