Gamma-Ray and High-Energy-Neutron Measurements on CORONAS-F during the Solar Flare of28October2003
The solar flare of 28 October 2003 (X17.2/4B) was recorded by the SONG instrument onboard the CORONAS-F satellite. Adescription of the SONG instrument, its in-orbit operation and the principal data reduction methods used to derive the flare gamma-ray properties are presented. Appreciable gamma-ray e...
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| Veröffentlicht in: | Solar physics 2011-01, Vol.268 (1), p.175-193 |
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| creator | Kuznetsov, Sergei N Kurt, Victoria G Yushkov, Boris Y Kudela, Karel Galkin, Vladimir I |
| description | The solar flare of 28 October 2003 (X17.2/4B) was recorded by the SONG instrument onboard the CORONAS-F satellite. Adescription of the SONG instrument, its in-orbit operation and the principal data reduction methods used to derive the flare gamma-ray properties are presented. Appreciable gamma-ray emission was observed in the 0.2-300MeV energy range. Several time intervals were identified which showed major changes in the intensity and spectral shape of the flare gamma-ray emission. The primary bremsstrahlung proves to be extended to 90MeV and dominates during 11:02:11-11:03:50 UT time interval, i.e. at the beginning of the flare impulsive phase. Afterwards, the SONG response was consistent with detection of the pion-decay gamma emission. Asharp increase in the pion-decay-generated gamma-ray emission was observed at 11:03:51 plus or minus 2s UT, implying a substantial change in the spectrum of accelerated ions, which testified the appearance of protons with energies of >300MeV on the Sun. This emission lasted at least 8-9min until the end of our measurements. The ion acceleration to high energies was also proved by the detection of neutrons with energies >500MeV. It was found that the most efficient acceleration of high-energy protons coincides in time with the highest rate of the magnetic-flux change rate. The maximum gamma-ray flux at 100MeV was 1.110 super(-2)photonscm super(-2)s super(-1) MeV super(-1), exceeding all the fluxes that have ever been recorded. |
| doi_str_mv | 10.1007/s11207-010-9669-2 |
| format | Article |
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Adescription of the SONG instrument, its in-orbit operation and the principal data reduction methods used to derive the flare gamma-ray properties are presented. Appreciable gamma-ray emission was observed in the 0.2-300MeV energy range. Several time intervals were identified which showed major changes in the intensity and spectral shape of the flare gamma-ray emission. The primary bremsstrahlung proves to be extended to 90MeV and dominates during 11:02:11-11:03:50 UT time interval, i.e. at the beginning of the flare impulsive phase. Afterwards, the SONG response was consistent with detection of the pion-decay gamma emission. Asharp increase in the pion-decay-generated gamma-ray emission was observed at 11:03:51 plus or minus 2s UT, implying a substantial change in the spectrum of accelerated ions, which testified the appearance of protons with energies of >300MeV on the Sun. This emission lasted at least 8-9min until the end of our measurements. The ion acceleration to high energies was also proved by the detection of neutrons with energies >500MeV. It was found that the most efficient acceleration of high-energy protons coincides in time with the highest rate of the magnetic-flux change rate. 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The ion acceleration to high energies was also proved by the detection of neutrons with energies >500MeV. It was found that the most efficient acceleration of high-energy protons coincides in time with the highest rate of the magnetic-flux change rate. 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The ion acceleration to high energies was also proved by the detection of neutrons with energies >500MeV. It was found that the most efficient acceleration of high-energy protons coincides in time with the highest rate of the magnetic-flux change rate. The maximum gamma-ray flux at 100MeV was 1.110 super(-2)photonscm super(-2)s super(-1) MeV super(-1), exceeding all the fluxes that have ever been recorded.</abstract><doi>10.1007/s11207-010-9669-2</doi></addata></record> |
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| source | Springer Nature - Complete Springer Journals |
| title | Gamma-Ray and High-Energy-Neutron Measurements on CORONAS-F during the Solar Flare of28October2003 |
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