AbstractThe values of the characteristic decay time of particle fluxes in SEP events vary, as a rule, considerably from event to event. We point out, however, that at times sequences of events having similar decay times were observed over long time intervals (up to one month, and even longer in a few cases). The values of the decay times, however, differed among different sequences. The constancy of the decay phase in each consecutive event of these series suggests that the interplanetary medium was in steady state during the event series, and, because of solar rotation, its uniformity within sectors extended to 90–180° in heliolongitude. The very rarely observed long series (up to 2–3 solar rotations) indicate the steadiness and homogeneity of the plasma and the interplanetary magnetic field (IMF) in the entire inner solar system in the course of this time span. It is pointed out that the neutral current sheet of the IMF does not represent a substantial obstacle for energetic charged particles. Both hemispheres are (above and below the current sheet), at least during the series of solar events, invariant with time, uniform and alike from the viewpoint of the propagation of charged particles. The investigation of such sequences of events can also be useful for forecasting characteristics of SEP events.
Periods of quasi-stationary conditions in interplanetary space according to sequences of SEP events
Advances in Space Research ; 32 , 12 ; 2661-2666
2003-04-01
6 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Periods of quasi-stationary conditions in interplanetary space according to sequences of SEP events
Online Contents | 2003
|Periods of Quasi-Stationary Conditions in Interplanetary Space According to Sequences of SEP Events
British Library Conference Proceedings | 2003
|Interplanetary space environment
NTRS | 1970