Sudden Ionospheric Disturbances resulting from an interaction of the Solar Flare radiation with the constituents of the upper atmosphere constitute one of the three major aspects of ground level monitoring of solar flares -the other two being optical observations of flares, and the observations of solar bursts in radio wavelengths. SIDs, therefore, form a major part of flare monitoring programme in many observatories. Unlike the other two, however, the ionospheric effects of flares provide one major additional source of interest - the reaction of the ionospheric plasma to an impulsive…mehr
Sudden Ionospheric Disturbances resulting from an interaction of the Solar Flare radiation with the constituents of the upper atmosphere constitute one of the three major aspects of ground level monitoring of solar flares -the other two being optical observations of flares, and the observations of solar bursts in radio wavelengths. SIDs, therefore, form a major part of flare monitoring programme in many observatories. Unlike the other two, however, the ionospheric effects of flares provide one major additional source of interest - the reaction of the ionospheric plasma to an impulsive ionization. The high atmosphere provides a low pressure laboratory without walls in which a host of reactions occur between electrons, ions and neutral particles. The resulting products and their distributions may bear no resemblance to those of the primary neutral constituents or their direct ionization products. The variations with the time of the day, with season and with solar activity that formthe bulk of the ionospheric measurements are too slow to allow any insight into the nature of these ionospheric reactions whose lifetimes are often very short. The relaxation time of the ionospheric ionization is only a few minutes or fraction of a minute in the lower ionosphere and in the E-region and is about 30 min to an hour at 300 km. The flares provide a sudden short impulse comparable to these time scales.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
1 / Introduction.- 2 / Description of SID Techniques and Observations.- 2.1. The Sudden Enhancement of Atmospherics (SEAs).- 2.2. Sudden Enhancement of Signal Strengths (SES), Sudden Field Anomalies (SFA).- 2.3. Sudden Phase Anomalies (SPA).- 2.4. Short Wave Fadeouts (SWF).- 2.5. Sudden Cosmic Noise Absorption (SCNA).- 2.6. Sudden Increase of fmin (SIF).- 2.7. Flare Effects Observed with Pulsed Transmitters.- 2.8. Sudden Frequency Deviations.- 2.9. Wave Interaction Technique.- 2.10. Partial Reflection Observations.- 2.11. Satellite Radio Beacon Experiment - Changes in Total Electron Content (SITEC).- 2.12. Incoherent-Scatter Technique.- 2.13. Rocket Soundings.- 2.14. A Comparative Evaluation of Electron Density Profile Errors.- 3 / Flare Radiations Responsible for Ionospheric Effects.- 3.1. Quiet-Day Solar Flux in the EUV and X-Ray Regions.- 3.2. Flaretime Enhancements in XUV Fluxes.- 3.3. X-Ray Spectral Development.- 3.4. Photoelectrons During Flares.- 4 / SID Phenomenology.- 4.1. Occurrence of SIDs with X-Ray, EUV Flares and Microwave Bursts.- 4.2. Threshold X-Ray Flux for the Production of an SID.- 4.3. Level of Solar Radio Flux in the 3000 MHz Region and Its Relation to the Occurrence of Sudden Ionospheric Disturbances.- 4.4. The Size Correlation.- 4.5. Time of Growth and Relaxation Time.- 4.6. SDA Characteristics and Implications.- 4.7. Examinations of Complete Time Profiles of X-Ray Flares, Radio Noise Bursts and SID Effects.- 5 / Some Simple Analysis Techniques.- 5.1. Photoionization Rates and Equations of Continuity.- 5.2. Use of Relaxation Time.- 5.3. Decay Curve Analysis.- 5.4. Simultaneous Correlation of ?? and ? A.- 5.5. Zenith Angle Dependence of SIDs.- 6 / Some Outstanding Solar Flare Events.- 6.1. Ionospheric Effects of the Flare of July 7, 1966.-6.2. Ionospheric Effects of the Solar Flares of May, 1967.- 6.3. Ionospheric Effects of the Solar Flare of July 8, 1968.- 6.4. Ionospheric Effects of August 1972 Flare Events.- 7 / Development of Electron Density Profiles From Synoptic SIDs.- 7.1. Profiles from SCNA Measurements.- 7.2. Profile Determination from Simultaneous Use of SCNA and SPA Measurements.- 7.3. Profiles from Phase and Amplitude Measurements at VLF.- 8 / D-Region Ionization Profiles and Loss Rates During Flares.- 8.1. Flare Ionization Profiles.- 8.2. Loss Rate During Flares.- 9 / SIDs as a Tool for the Study of Aeronomy and Ion Chemistry.- 9.1. Photoionization Rates During Solar Flares.- 9.2. Minor Neutral Constituents in the Mesosphere.- 9.3. Ion Composition.- 9.4. Information on Nitric Oxide from Simultaneous Measurements of Electron Density and Solar X-Rays During Flares.- 9.5. Chemistry of D-Region During Flares.- 9.6. F-Region During Flares.- 10 / SIDs as Flare Radiation Monitoring Techniques.- 10.1. Information on the X-Ray Region.- 10.2. Information on EUV Flux from F-Region SIDs.- 11 / Polar Cap Absorption Events.- 11.1. Radio Measurement Techniques.- 11.2. PCA Morphology.- 11.3. November 1969 PCA Events.- 11.4. Principal Aeronomic Features of the Lower Ionosphere During a Major PCA.- 11.5. Chemistry of the Lower Ionosphere During PCAs.- References.- Special Data Volumes, Books and Conference Proceedings.- Index of Names.- Index of Subjects.
1 / Introduction.- 2 / Description of SID Techniques and Observations.- 2.1. The Sudden Enhancement of Atmospherics (SEAs).- 2.2. Sudden Enhancement of Signal Strengths (SES), Sudden Field Anomalies (SFA).- 2.3. Sudden Phase Anomalies (SPA).- 2.4. Short Wave Fadeouts (SWF).- 2.5. Sudden Cosmic Noise Absorption (SCNA).- 2.6. Sudden Increase of fmin (SIF).- 2.7. Flare Effects Observed with Pulsed Transmitters.- 2.8. Sudden Frequency Deviations.- 2.9. Wave Interaction Technique.- 2.10. Partial Reflection Observations.- 2.11. Satellite Radio Beacon Experiment - Changes in Total Electron Content (SITEC).- 2.12. Incoherent-Scatter Technique.- 2.13. Rocket Soundings.- 2.14. A Comparative Evaluation of Electron Density Profile Errors.- 3 / Flare Radiations Responsible for Ionospheric Effects.- 3.1. Quiet-Day Solar Flux in the EUV and X-Ray Regions.- 3.2. Flaretime Enhancements in XUV Fluxes.- 3.3. X-Ray Spectral Development.- 3.4. Photoelectrons During Flares.- 4 / SID Phenomenology.- 4.1. Occurrence of SIDs with X-Ray, EUV Flares and Microwave Bursts.- 4.2. Threshold X-Ray Flux for the Production of an SID.- 4.3. Level of Solar Radio Flux in the 3000 MHz Region and Its Relation to the Occurrence of Sudden Ionospheric Disturbances.- 4.4. The Size Correlation.- 4.5. Time of Growth and Relaxation Time.- 4.6. SDA Characteristics and Implications.- 4.7. Examinations of Complete Time Profiles of X-Ray Flares, Radio Noise Bursts and SID Effects.- 5 / Some Simple Analysis Techniques.- 5.1. Photoionization Rates and Equations of Continuity.- 5.2. Use of Relaxation Time.- 5.3. Decay Curve Analysis.- 5.4. Simultaneous Correlation of ?? and ? A.- 5.5. Zenith Angle Dependence of SIDs.- 6 / Some Outstanding Solar Flare Events.- 6.1. Ionospheric Effects of the Flare of July 7, 1966.-6.2. Ionospheric Effects of the Solar Flares of May, 1967.- 6.3. Ionospheric Effects of the Solar Flare of July 8, 1968.- 6.4. Ionospheric Effects of August 1972 Flare Events.- 7 / Development of Electron Density Profiles From Synoptic SIDs.- 7.1. Profiles from SCNA Measurements.- 7.2. Profile Determination from Simultaneous Use of SCNA and SPA Measurements.- 7.3. Profiles from Phase and Amplitude Measurements at VLF.- 8 / D-Region Ionization Profiles and Loss Rates During Flares.- 8.1. Flare Ionization Profiles.- 8.2. Loss Rate During Flares.- 9 / SIDs as a Tool for the Study of Aeronomy and Ion Chemistry.- 9.1. Photoionization Rates During Solar Flares.- 9.2. Minor Neutral Constituents in the Mesosphere.- 9.3. Ion Composition.- 9.4. Information on Nitric Oxide from Simultaneous Measurements of Electron Density and Solar X-Rays During Flares.- 9.5. Chemistry of D-Region During Flares.- 9.6. F-Region During Flares.- 10 / SIDs as Flare Radiation Monitoring Techniques.- 10.1. Information on the X-Ray Region.- 10.2. Information on EUV Flux from F-Region SIDs.- 11 / Polar Cap Absorption Events.- 11.1. Radio Measurement Techniques.- 11.2. PCA Morphology.- 11.3. November 1969 PCA Events.- 11.4. Principal Aeronomic Features of the Lower Ionosphere During a Major PCA.- 11.5. Chemistry of the Lower Ionosphere During PCAs.- References.- Special Data Volumes, Books and Conference Proceedings.- Index of Names.- Index of Subjects.
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