Abstract
The total electron content (TEC) data derived from the GAIA (Ground-to-topside model of Atmosphere Ionosphere for Aeronomy) is used to study the seasonal and longitudinal variation of occurrence of medium-scale traveling ionospheric disturbances (MSTIDs) during daytime (09:00–15:00 LT) for the year 2011 at eight locations in northern and southern hemispheres, and the results are compared with ground-based Global Positioning System (GPS)-TEC. To derive TEC variations caused by MSTIDs from the GAIA (GPS) data, we obtained detrended TEC by subtracting 2-h (1-h) running average from the TEC, and calculated standard deviation of the detrended TEC in 2 h (1 h). MSTID activity was defined as a ratio of the standard deviation to the averaged TEC. Both GAIA simulation and GPS observations data show that daytime MSTID activities in the northern and southern hemisphere (NH and SH) are higher in winter than in other seasons. From the GAIA simulation, the amplitude of the meridional wind variations, which could be representative of gravity waves (GWs), shows two peaks in winter and summer. The winter peak in the amplitude of the meridional wind variations coincides with the winter peak of the daytime MSTIDs, indicating that the high GW activity is responsible for the high MSTID activity. On the other hand, the MSTID activity does not increase in summer. This is because the GWs in the thermosphere propagate poleward in summer, and equatorward in winter, and the equatorward-propagating GWs cause large plasma density perturbations compared to the poleward-propagating GWs. Longitudinal variation of daytime MSTID activity in winter is seen in both hemispheres. The MSTID activity during winter in the NH is higher over Japan than USA, and the MSTID activity during winter in the SH is the highest in South America. In a nutshell, GAIA can successfully reproduce the seasonal and longitudinal variation of the daytime MSTIDs. This study confirms that GWs cause the daytime MSTIDs in GAIA and amplitude and propagation direction of the GWs control the noted seasonal variation. GW activities in the middle and lower atmosphere cause the longitudinal variation.
Highlights
Several investigators have studied the traveling ionospheric disturbances (TIDs) since 1940, using a variety of techniques (Beynon 1948; Bowman 1968; ChanSivakandan et al Earth, Planets and Space (2021) 73:35 ionospheric disturbances was given by Hooke (1968)
medium-scale traveling ionospheric disturbances (MSTIDs) activity and standard deviation of meridional wind perturbations obtained from the Ground-to-topside of Atmosphere and Ionosphere for Aeronomy (GAIA) simulation, respectively, at different regions, viz. Western United States of America (WUSA), Eastern United States of America (EUSA), Europe and Japan in the northern hemisphere (NH) for the year 2011
From the top and middle panels, it is clear that MSTID activities obtained from both Global Positioning System (GPS) observations and GAIA simulation are smaller during the daytime than during the nighttime
Summary
Sivakandan et al Earth, Planets and Space (2021) 73:35 ionospheric disturbances was given by Hooke (1968). This theory suggests that meridional component of neutral wind oscillation due to the GWs can effectively generate the TIDs through the ion-neutral collision process. Based on the characteristics of wavelength and phase speed, TIDs are classified into two categories, viz largescale TIDs (LSTIDs) and medium-scale TIDs (MSTIDs) (Hunsucker 1982). LSTIDs have horizontal wavelength longer than 1000 km, phase speed of 400–1000 m/s, and period ranging from 30 min to 3 h. Horizontal wavelength, phase speed, and period of MSTIDs are several hundred kilometres, 250–1000 m/s, and 15 min to 1 h, respectively. MSTIDs have been observed by various techniques (Amorim et al 2011; Duly et al 2013; Frissell et al 2014; Kotake et al 2007; Narayanan et al 2014; Otsuka et al 2013)
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