Multi-Instrument Characterisation of Magnetospheric Cold Plasma Dynamics in the 22 June 2015 Geomagnetic Storm

Abstract: We present a comparison of magnetospheric plasma mass/electron density observations during an 11-day interval which includes the geomagnetic storm of 22 June 2015. For this study we used: equatorial plasma mass density derived from geomagnetic field line resonances (FLRs) detected by Van Allen Probes and at the ground-based magnetometer networks EMMA and CARISMA; in situ electron density inferred by the Neural-network-based Upper hybrid Resonance Determination algorithm applied to plasma wave Van Allen Probes … Show more

“…It is because at a higher L‐shell the length of the field line is longer, which gives rise to longer time period of oscillation. Therefore, the Eigen frequency of the field line oscillation increases as we move toward lower L‐shells (Anderson et al., 1989; Vellante et al., 2021). The long period modulation is also found to be present in the EMIC waves observed on the ground; however, it is not as frequent as short period modulation.…”

“…This feature of field line oscillation was confirmed by various studies. According to satellite studies (Anderson et al, 1989;Vellante et al, 2021), the Eigen frequency of the field line oscillation increases as we move toward lower L-shells; in other words, the time period of oscillation decreases. It is in agreement with the tendency of having lower values of τ s for higher peak frequency.…”

A Statistical Study of Modulation of Electromagnetic Ion Cyclotron Waves Observed on Ground

“…It is because at a higher L‐shell the length of the field line is longer, which gives rise to longer time period of oscillation. Therefore, the Eigen frequency of the field line oscillation increases as we move toward lower L‐shells (Anderson et al., 1989; Vellante et al., 2021). The long period modulation is also found to be present in the EMIC waves observed on the ground; however, it is not as frequent as short period modulation.…”

“…This feature of field line oscillation was confirmed by various studies. According to satellite studies (Anderson et al, 1989;Vellante et al, 2021), the Eigen frequency of the field line oscillation increases as we move toward lower L-shells; in other words, the time period of oscillation decreases. It is in agreement with the tendency of having lower values of τ s for higher peak frequency.…”

A Statistical Study of Modulation of Electromagnetic Ion Cyclotron Waves Observed on Ground