Upward F‐region equatorial vertical drifts due to neutral winds (...Figure 9.4 Local time, seasonal and longitude‐dependent equatorial quiet‐tim...Figure 9.5 Seasonal and longitudinal variations of evening prereversal veloc...Figure 9.6 Longitudinal dependence of equatorial evening prereversal velocit...Figure 9.7 Seasonal and longitudinal dependence of equatorial quiet‐time ave...Figure 9.8 Height variation of quiet‐time evening vertical drifts over Jicam...Figure 9.9 (a) Altitudinal profiles of Jicamarca late afternoon and early ni...Figure 9.10 Height profiles of evening vertical plasma drifts over Jicamarca...Figure 9.11 SYM‐H and ASY indices equatorial magnetic measurements over the ...Figure 9.12 Seasonal dependence of longitudinally averaged equatorial prompt...Figure 9.13 Seasonal depedence of longitudinally averaged equatorial disturb...Figure 9.14 Equatorial equinoctial disturbance‐dynamo vertical drifts (posit...Figure 9.15 Time series of ionosphere responses to the X17 flare that occurr...
10 Chapter 10Figure 10.1 Geometry used for the generalized Rayleigh‐Taylor instability an...Figure 10.2 Schematic of bubble formation on the bottom side of the F layer ...Figure 10.3 Numerical simulation of bubble penetration into the topside iono...Figure 10.4 Numerical simulation of bubble evolution including a conducting Figure 10.5 Three‐dimensional electron density isosurfaces and two‐dimension...Figure 10.6 ESF bubble development using (a) the donor‐cell method and (b) t...Figure 10.7 High-resolution ESF bubble development using the HIRB model...Figure 10.8 ESF bubble development. The top panel (a) is for no neutral wind...Figure 10.9 Sun‐fixed longitudinal grid showing the coarse and high resoluti...Figure 10.10 Electron density contours as a function of magnetic local time ...Figure 10.11 Plots of the electron density, vertical E x B velocity, and zon...Figure 10.12 Color‐coded contours of the electron density as a function of l...
11 Chapter 11Figure 11.1 Climatology of upward plasma drift over Jicamarca, which is plot...Figure 11.2 Percentage ESF occurrence probability as a function of PRE peak ...Figure 11.3 The monthly mean sunspot numbers from 1950 to 2020 are plotted t...Figure 11.4 The scatter in the h’F values that immediately preceded th...Figure 11.5 Three ALTAIR scans made on 19 July 1979, which show (a) a horizo...Figure 11.6 (a) The original definition of ESF referred to as the range type...Figure 11.7 Percentage occurrence frequency for RSF and FSF as a function of...Figure 11.8 (a) Occurrence frequency of radio scintillations at 40, 140 and ...Figure 11.9 Histograms showing the percentage occurrence frequency for the j...Figure 11.10 Wavelength dependences of irregularity growth rate: curve A is ...Figure 11.11 Normalized growth rate of the collisional‐shear instability, pl...Figure 11.12 A sketch showing the N‐I coupling process associated with an id...Figure 11.13 Distributions of ESF (ROCSAT‐1 data) and OLR data as a function...Figure 11.14 A comparison of deep convective activity (blue bars) with ESF o...Figure 11.15 A composite plot of h’F versus UT, on 27 March 2006, meas...Figure 11.16 A sketch that is consistent with the data from 27 March 2006 in...Figure 11.17 (a) Sketch showing the variations in h’F vs UT over BCL a...Figure 11.18 Composite plot of PRE curves from C/NOFSFigure 11.19 Seven hodographs of U, measured over Kwajalein for 1978, 1979, ...Figure 11.20 Altitude profiles of the zonal U, calculated from the HWM07 mod...Figure 11.21 Two sets of U profiles, obtained by rockets launched from Kwaja...Figure 11.22 (a) Hodograph for U, measured over Kwajalein on 17 August 1978....Figure 11.23 Sketch showing how the meridional U stabilizes or destabilizes ...Figure 11.24 DMSP climatologies for (a) 2000 and (b) 2006 are reproduced fro...Figure 11.25 Occurrence rate over Eastern Pacific sector (240°E to 285°E), e...Figure 11.26 Percentage occurrence probability, derived from AE‐E data, is p...Figure 11.27 (a) DMSP EPB climatology for 1999–2002 (redrawn from Gentile et...Figure 11.28 Climatology of EPBs derived from the dawn sector (0000–0600 LT)...Figure 11.29 Early paradigm for the development of ESF over a station in the...Figure 11.30 An ATI plot of radar backscatter as a function of altitude and ...Figure 11.31 Four stages of the upwelling paradigm, which describe EPB devel...Figure 11.32 Spatial maps of isodensity contours as a function of altitude a...Figure 11.33 Curves of h’F versus UT are shown for 22 July 1979 (black...Figure 11.34 Relationship of ΔE oscillations observed during a San Marco D p...Figure 11.35 ALTAIR maps, taken on 24 July 1979, showing (a) a large‐amplitu...Figure 11.36 A composite plot of ALTAIR scans from 24 July 1979, which shows...Figure 11.37 A composite comparison of an ATI plot of radar backscatter obta...Figure 11.38 (a) Ionogram taken at Kwajalein on 24 July 1979, at 0711 UT (18...Figure 11.39 An ionogram with DOA capability is presented, which shows multi...Figure 11.40 Summary of the EQUIS II rocket experiment on 7 August 2004. Fig...Figure 11.41 Velocity shear measurements obtained with the Jicamarca radar o...Figure 11.42 Stack of three ALTAIR scans, from 7 August 2004, which show the...Figure 11.43 Superposition of vertical‐velocity curves versus LT, measured d...Figure 11.44 A composite, which includes four ALTAIR scans taken at differen...Figure 11.45 ALTAIR scan of a backscatter plume (bottom panel) and ion densi...Figure 11.46 Example of LSWS with no structure during the first pass (orbit ...Figure 11.47 Example of RSF patches passing over Jicamarca, obtained with a ...Figure 11.48 Examples of long‐lived striations, which were launched around s...Figure 11.49 Example of AzTI plot (lower panel) of measurements made with a ...Figure 11.50 Keogram of ROTI from a network of GPS receivers in Southeast As...Figure 11.51 A train of 14 EPBs observed with C/NOFS during three consecutiv...Figure 11.52 The ion density (left column) and vertical velocity (right colu...Figure 11.53 Sketch for Model 2 interpretation, reproduced from Huang et al....Figure 11.54 Spatial maps of coherent backscatter during presence of westwar...Figure 11.55 Example of vortical plasma flow and development of EPBs, 31 Jul...Figure 11.56 A composite plot, which includes the h’F plots from MAN a...Figure 11.57 A sketch that shows a seed ΔE in region of westward drift; if i...Figure 11.58 Example of EPBs obtained with the C/NOFS satellite on 5 June 20...Figure 11.59 The occurrence frequency of ESF over Baguio, from Marasigan (19...Figure 11.60 (a) Histogram for FSF occurrences; (b) variation in h’F f...Figure 11.61 Frequency of days of radar echoes during low solar and magnetic...Figure 11.62 An example of an upwelling plume, observed with the EAR on 20 J...Figure 11.63 Backscatter plumes observed with the CXI radar on 23 July 2011 ...Figure 11.64 Backscatter plumes observed with the CXI radar on 3 July 2011 w...Figure 11.65 A sketch of the evening equatorial vortex, where red (blue) lin...Figure 11.66 OLR maps showing the temporal development of a MCC (blue colore...
12 Chapter 12Figure 12.1 Example of EEJ recordings over 1 week at the stations Huancayo (...Figure 12.2 Typical noontime EEJ signature observed by CHAMP. (a) Scalar mag...Figure 12.3 Current density components constructed from solution of PDE for ...Figure 12.4 Magnetic field components due to EEJ current flow for same time ...Figure 12.5 Zonal average of the EEJ local time variation. Mean diurnal vari...Figure 12.6 Zonal and diurnal averages of the EEJ height‐integrated peak cur...Figure 12.7 Global averages of the EEJ height‐integrated peak current densit...Figure 12.8 Longitudinal distribution of the electrojet intensity versus loc...Figure 12.9 Composite plot of all tidal components contributing to the wave...Figure 12.10 Composite plot of the major EEJ tidal signals during December s...Figure 12.11 Dependence of the counter electrojet occurrence frequency on (a...Figure 12.12 Distribution of the CEJ occurrence rates in a local time versus...Figure 12.13 Dependence of CEJ amplitude on magnetic activity. On average, t...
13 Chapter 13Figure 13.1 Diurnal variations of the latitude‐altitude patterns of the iono...Figure 13.2 The integrated electron content (IEC) as measured by the CHAMP s...Figure 13.3 The total electron content (TEC) between altitudes 100 and 2,000...Figure 13.4 The absolute TEC deviation during the 2003 Halloween storms vers...Figure 13.5 Sketches illustrating the evolution of dayside electron density ...Figure 13.6 Variations of differential total electron content (TEC) obtained...
14 Chapter 14Figure 14.1 (a) Global MHD simulation of the dynamos of the R1 and R2 FACs f...Figure 14.2 X‐component magnetic fields at the IMAGE stations, Kilpisjarvi (...Figure 14.3 Latitudinal profile of the magnitude of the DP2 fluctuations sho...Figure 14.4 A schematic diagram of the DP2 ionospheric currents under the so...Figure 14.5 (top) Solar wind dynamic pressure, (middle) IMF Bz measured by A...Figure 14.6 UT versus latitude plots of the line‐of‐sight velocity measured ...Figure 14.7 HF Doppler frequency deviations caused by the SC electric fields...Figure 14.8 Model calculations of eastward electric fields at 60° latitude (...Figure 14.9 Convection (E1) and shielding (E2) electric fields depicted with...Figure 14.10 Schematic diagram of the substorm overshielding current circuit...Figure 14.11 (a) H component