Magnetospheric response of two types in PSc geomagnetic pulsations to interaction with interplanetary shock waves

We report on the dynamics of field-aligned currents (FACs), broadband geomagnetic pulsations, and airglow obtained from the Irkutsk (IRK), Mondy (MND), and Borok (BOX) midlatitude geomagnetic observatories and the Tory (TOR) optical observatory during storm substorms. For the first time, using the short duration, Δt < 0.5 min, high-frequency component of the burst pulsations (Pi1B), we determined the substorm double expansion phase (EP) onsets <5 min apart, which is hardly possible by means of the low-frequency (periods of 2-5 min) Psc/PiB pulsations. We argue that the observed burst pulsations are the result of prompt changes in the solar wind dynamic pressure and/or the current circuit related to the westward electrojet. Each pulsed source can excite short bursts of broadband electromagnetic modes of the ionospheric Alfvén resonator in the range of short-period pulsations with a periodic resonance structure of the spectrum characteristic of the observed Pi1B/Psc pulsations. Plain Language Summary We explored geomagnetic and optical midlatitude observations during storms. In addition to the common low-frequency (periods of 2-5 min) Psc/PiB pulsations, we used the short-period part (Pi1B) of burst pulsations with T < 10 s that allowed us to determine not only isolated substorm expansion onsets but also double substorm onsets and series of onsets of short substorm activations or pseudobreakups during storms. This is hardly possible with the commonly used long-period pulsations (Pi2, Pi3) that are problematic due to their long duration.

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Estimation of the Propagation Time of the Solar Wind Pressure Pulse between a Shock Wave and the Magnetopause Based on Simultaneous Satellite and Ground-Based Observations

Safargaleev

2022

Geomagn. Aeron.

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The propagation of solar wind inhomogeneities through the transition region between the bow shock front and the daytime magnetopause is an important link in the chain of solar-terrestrial connections. We analyzed a unique situation when two THEMIS satellites were near the bow shock during the solar wind pressure pulse, and the favorable location of the ground-based magnetometric equipment made it possible to determine the time of the solar wind impact on the magnetopause with greater accuracy than it was done previously. Based on the measurements, the propagation time of sudden impulse (SI) in the magnetosheath was estimated. The obtained value (~1 min) agrees with model calculations, but turns out to be 2–3 times less than that previously obtained by other authors also from satellite and ground-based observations. The propagation velocity of the solar wind in the magnetosheath (~280 km/s), the displacement velocity of the bow shock front to the Earth (~80 km/s), and the thickness of the magnetosheath at the location of the satellites (2.6–3.9RE) are determined.

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Magnetospheric response of two types in PSc geomagnetic pulsations to interaction with interplanetary shock waves

Cited by 5 publications

References 17 publications

Midlatitude bursts of PiB geomagnetic pulsations and night airglow during stormtime sawtooth events

Midlatitude bursts of PiB geomagnetic pulsations and night airglow during stormtime sawtooth events

Burst Geomagnetic Pulsations as Indicators of Substorm Expansion Onsets During Storms

Estimation of the Propagation Time of the Solar Wind Pressure Pulse between a Shock Wave and the Magnetopause Based on Simultaneous Satellite and Ground-Based Observations

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