We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Simultaneous Occurrence of Traveling Ionospheric Disturbances, Farley Buneman and Gradient Drift Instabilities Observed by the Zhongshan SuperDARN HF Radar.
- Authors
Hiyadutuje, Alicreance; Habarulema, John Bosco; Kosch, Michael J.; Chen, Xiangcai; Stephenson, Judy A. E.; Matamba, Tshimangadzo Merline
- Abstract
We show that Traveling Ionospheric Disturbances (TIDs) may affect the Farley Buneman Instability (FBI) and Gradient Drift Instability (GDI) echoes referred to as the Near Range Echoes (NREs) in the SuperDARN radar backscatter from the lower part of the E‐region. TIDs and NREs are observed concomitantly by the Zhongshan SuperDARN radar (69.38°S, 76.38°E) in the far and near ranges, respectively. At the moment, there is no study about the effects of TIDs on the NREs caused by the FBI using the SuperDARN radars. The GDI are more likely to occur at a lower altitude while FBI occurs at a slightly higher altitude in the lower part of the ionospheric E‐region. We use the Spearman Correlation Coefficient (SCC) to show that a part of the NREs backscatter power could be statistically explained by the MSTIDs backscatter power received by the same radar. We also investigate the simultaneous occurrence rate of the NREs and MSTIDs during the 24th solar cycle. Seasonal variability shows that MSTIDs‐NREs events over Zhongshan mostly occur in summer and equinoxes during local night and morning. The majority of these events lasted between ∼4 and ∼8 hr. Most events disappeared early in the morning. Statistics of the Spearman correlation coefficient values show that ∼9% of NRE amplitude modulation could be due to the MSTIDs. There are almost equal numbers of negative and positive Spearman correlation coefficient values. The relative velocity between the E‐region NREs and the F‐region MSTIDs switching the electric field polarities between the crests and troughs could be the cause of those equal number of the Spearman correlation coefficient values. The orientation of the ionospheric current relative to the MSTID polarization electric field may also play a significant role in the reported Spearman correlation coefficient values. We argue that in some cases, the TIDs might have been close enough to the NREs altitude to modulate them directly by transporting the plasma up and down through shear or compression. Plain Language Summary: SuperDARN radar Near Range Echoes (NREs) were observed at an altitude range of 95–125 km and are caused by the Gradient Drift Instability (GDI) and Farley Buneman Instability (FBI). Medium Scale Traveling Ionospheric Disturbances (MSTIDs) are wave‐like perturbations of plasma density that propagate in the ionosphere. They are caused by any major ionospheric energy input such as the Atmospheric Gravity Waves (AGWs), Joule heating, Perkins instability, and so on. It was argued that the MSTIDs partially modulate the NREs backscatter power associated with the GDI through the polarization electric field. We use the Zhongshan SuperDARN radar to show that apart from GDI, FBI related echoes are also partially modulated by the MSTIDs. We also record the number of MSTID‐NRE events during 2010–2019 and found that the majority of them occurs in summer and equinoxes during local night and morning while the minority occurred in the winter of the southern hemisphere. We also perform a statistical study of the Spearman correlation coefficient values of all events recorded for this study. Key Points: First demonstration of TIDs partially modulating Farley Buneman (FB) and Gradient Drift (GD) wavesFarley Buneman and Gradient Drift Instabilities generate NREsSpearman rank correlation analysis shows that statistically ∼9% of NRE amplitude modulation could be due to the MSTIDs
- Subjects
UNITED States. Federal Bureau of Investigation; IONOSPHERIC disturbances; POLARIZATION (Electricity); RANK correlation (Statistics); RADAR; SONAR
- Publication
Journal of Geophysical Research. Space Physics, 2024, Vol 129, Issue 2, p1
- ISSN
2169-9380
- Publication type
Article
- DOI
10.1029/2023JA031367