Galactic cosmic ray modulation and interplanetary medium perturbations due to a long‐living active region during October 1989

Bavassano, B.; Iucci, N.; Lepping, R. P.; Signorini, C.; Smith, E. J.; Villoresi, G.

doi:10.1029/93ja03135

Cited by 19 publications

(17 citation statements)

References 15 publications

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“…The cosmic ray record at Earth is consistent with this picture such that only the first two shock-associated cosmic ray decreases had the signature expected for intercepting ejecta material. This same time period was also examined by Bavassano et al (1994). However, we do not agree with their conclusion that "magnetic clouds" extending at least 75 ø from the source longitude were present.…”

contrasting

confidence: 84%

Cosmic ray decreases and solar wind disturbances during late October 1989

Cane

Richardson²

1995

J. Geophys. Res.

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We describe the interplanetary phenomena (energetic particles, solar wind plasma, and magnetic field) seen at IMP 8 and at ICE, located 65° west of IMP 8, during the period October 19‐31, 1989, when neutron monitors observed three ground level events originating in one active region when it was in the longitude range E09° to W57°. At least four shocks, associated with energetic particle enhancements, which can be attributed to a sequence of coronal mass ejections from the same active region, were seen at both spacecraft. An additional shock was observed only at ICE late in this period when the active region was behind the west limb. Considering all the data (which unfortunately suffer from large gaps), it appears that the ejecta associated with the shocks were detected only when the spacecraft and solar source longitude were separated by less than 50°. The shocks extended over a greater range of longitudes. The cosmic ray record at Earth is consistent with this picture such that only the first two shock‐associated cosmic ray decreases had the signature expected for intercepting ejecta material. This same time period was also examined by Bavassano et al. (1994). However, we do not agree with their conclusion that “magnetic clouds” extending at least 75° from the source longitude were present.

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contrasting

confidence: 84%

Cosmic ray decreases and solar wind disturbances during late October 1989

Cane

Richardson²

1995

J. Geophys. Res.

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“…This effect was analyzed recently, both theoretically (Dorman et al, 1995) and experimentally on the basis of the network of CR stations (Belov et al, 1995a,b). The predecrease effect can be due to a magnetic connection of the Earth with regions (moving from the Sun) with reduced CR density; this lower density can be observed at the Earth along the actual direction of IMF lines (Nagashima et al, 1990;Bavassano et al, 1994); 3. CR fluctuations: Many authors found some peculiarities in the behavior of CR fluctuations before FD: changes in frequency spectrum; appearance of peaks in spectrum at some frequencies; variations in some special parameter introduced for characterizing the variability of fluctuations.…”

Section: And 2)mentioning

confidence: 99%

Space weather and dangerous phenomena on the Earth: principles of great geomagnetic storms forcasting by online cosmic ray data

Дорман

2005

Ann. Geophys.

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Abstract. According to NOAA space weather scales, geomagnetic storms of scales G5 (3-h index of geomagnetic activity K p =9), G4 (K p =8) and G3 (K p =7) are dangerous for satellites, aircrafts, and even for technology on the ground (influence on power systems, on spacecraft operations, on HF radio-communications and others). We show on the basis of statistical data, that these geomagnetic storms, mostly accompanied by cosmic ray (CR) Forbush-decreases, are also dangerous for people's health on spacecraft and on the ground (increasing the rate of myocardial infarctions, brain strokes and car accident road traumas). To prevent these serious damages it is very important to forecast dangerous geomagnetic storms. Here we consider the principles of using CR measurements for this aim: to forecast at least 10-15 h before the sudden commencement of great geomagnetic storms accompanied by Forbush-decreases, by using neutron monitor muon telescope worldwide network online hourly data. We show that for this forecast one may use the following features of CR intensity variations connected with geomagnetic storms accompanied by Forbush-decreases: 1) CR pre-increase, 2) CR pre-decrease, 3) CR fluctuations, 4) change in the 3-D CR anisotropy.

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“…According to Cane and Richardson, there was another shock passing the Earth as early as 09:16 UT, but that was suggested to be related to one of the Ha or X-ray¯ares at the Sun which preceded the large 19 October¯are. However, Bavassano et al (1994) relate the ®rst shock to the 19 October¯are. Direct evidence of ejecta from the 22 October event was not observed, because IMP 8 was in the magnetosphere, but their passage was considered to be plausible by Cane and Richardson (1995).…”

Section: Observationsmentioning

confidence: 99%

“…On 26 October, the shock produced by the last CME was seen as an SC, too, but Cane and Richardson concluded that the ejecta from this event did not pass the Earth. Bavassano et al (1994) state that the trapping eect of these ejecta is`marginally``seen'' by cosmic rays'.…”

Section: Observationsmentioning

confidence: 99%

Long-duration high-energy proton events observed by GOES in October 1989

et al. 1998

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Abstract. We consider the prolonged injection of the high-energy (>10 MeV) protons during the three successive events observed by GOES in October 1989. We apply a solar-rotation-stereoscopy approach to study the injection of the accelerated particles from the CMEdriven interplanetary shock waves in order to ®nd out how the eectiveness of the particle acceleration and/or escape depends on the angular distance from the shock axis. We use an empirical model for the proton injection at the shock and a standard model of the interplanetary transport. The model can reproduce rather well the observed intensity±time pro®les of the October 1989 events. The deduced proton injection rate is highest at the nose of the shock; the injection spectrum is always harder near the Sun. The results seem to be consistent with the scheme that the CME-driven interplanetary shock waves accelerate a seed particle population of coronal origin.

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Galactic cosmic ray modulation and interplanetary medium perturbations due to a long‐living active region during October 1989

Cited by 19 publications

References 15 publications

Cosmic ray decreases and solar wind disturbances during late October 1989

Cosmic ray decreases and solar wind disturbances during late October 1989

Space weather and dangerous phenomena on the Earth: principles of great geomagnetic storms forcasting by online cosmic ray data

Long-duration high-energy proton events observed by GOES in October 1989

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