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Microwave burst with fine spectral structures in a solar flare on 2011 August 9

Published online by Cambridge University Press:  27 June 2012

M. Faurobert ,
C. Fang ,
T. Corbard ,
B.L. Tan ,
C.M. Tan  and
Y.Y. Liu
B.L. Tan
Affiliation:
Key Laboratory of Solar Activity, National Astronomical Observatories of Chinese Academy of Sciences, Datun Road 20A, Beijing 100012, China
C.M. Tan
Affiliation:
Key Laboratory of Solar Activity, National Astronomical Observatories of Chinese Academy of Sciences, Datun Road 20A, Beijing 100012, China
Y.Y. Liu
Affiliation:
Key Laboratory of Solar Activity, National Astronomical Observatories of Chinese Academy of Sciences, Datun Road 20A, Beijing 100012, China
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Abstract

On August 9, 2011, there was an X6.9 flare event occurred near the west limb of solar disk. From the observation obtained by the spectrometer of the Chinese Solar Broadband Radio Spectrometer in Huairou (SBRS/Huairou) around the flare, we find that this powerful flare has only a short-duration microwave burst of about only 5 minutes, and during the short-duration microwave burst, there are several kinds of fine structures on the spectrogram. These fine structures include very short-period pulsations, millisecond spike bursts, and type III bursts. The most interesting is that almost all of the pulses of very short-period pulsation (VSP) are structured by clusters of millisecond timescales of spike bursts or type III bursts. And there exists three different kinds of frequency drift rates in the VSP: the frequency drift rates with absolute value of about 55–130 MHz s-1) in the pulse groups, the frequency drift rates with absolute value of about 2.91–16.9 GHz s-1) on each individual pulse, and the frequency drift rates with absolute value of about 15–25 GHz s-1) at each individual spike burst or type III burst.

Type
Research Article
Information
European Astronomical Society Publications Series , Volume 55: 4th French-Chinese Meeting on Solar Physics - Understanding Solar Activity: Advances and Challenges , 2012 , pp. 251 - 255
Copyright
© EAS, EDP Sciences 2012

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