Abstract
Particle and magnetic field measurements on the CRRES satellite were used, together with geosynchronous satellites and ground-based observations, to investigate the fine structure of a magnetospheric substorm on February 9, 1991. Using the variations in the electron fluxes, the substorm activity was divided into several intensifications lasting about 3â15 minutes each. The two main features of the data were: (1) the intensifications showed internal fine structure in the time scale of about 2 minutes or less. We call these shorter periods activations. Energetic electrons and protons at the closest geosynchronous spacecraft (1990 095) were found to have comparable activation structure. (2) The energetic (>69 keV) proton injections were delayed with respect to electron injections, and actually coincided in time with the end of the intensifications and partial returns to locally more stretched field line configuration. We propose that the energetic protons could be able to control the dynamics of the system locally be quenching the ongoing intensification and possibly preparing the final large-scale poleward movement of the activity. It was also shown that these protons originated from the same intensification as the preceeding electrons. Therefore, the substorm instability responsible for the intensifications could introduce a negative feedback loop into the system, creating the observed fine structure with the intensification time scales.Key words. Magnetospheric Physics (Storms and substorms).
Highlights
The development of magnetospheric substorms on large temporal and spatial scales is well established
We propose that the energetic protons could be able to control the dynamics of the system locally be quenching the ongoing intensi®cation and possibly preparing the ®nal large-scale poleward movement of the activity
Ground-based magnetometer data from Tromsù, Apatity, Dixon, Tixie and Cape Wellen were used to investigate the spatial extent of the substorm activity; pulsation magnetometer data from Yakutsk provided timings for the activity onsets; and all-sky camera (ASC) pictures from KilpisjaÈ rvi made it possible to investigate auroral activity to the west of the CRRES meridian
Summary
The development of magnetospheric substorms on large temporal and spatial scales is well established. Ground-based magnetometer data from Tromsù, Apatity, Dixon, Tixie and Cape Wellen were used to investigate the spatial extent of the substorm activity; pulsation magnetometer data from Yakutsk provided timings for the activity onsets; and all-sky camera (ASC) pictures from KilpisjaÈ rvi made it possible to investigate auroral activity to the west of the CRRES meridian. The locations of these stations are plotted on Fig. 1. The IMF and solar wind conditions were studied using the data from IMP-8, which was located at about (34, 2, A16) Re GSM during the event
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