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Article Dans Une Revue The Astrophysical Journal Année : 2010

Interplanetary Shocks Lacking Type II Radio Bursts

Résumé

We report on the radio-emission characteristics of 222 interplanetary (IP) shocks detected by spacecraft at Sun-Earth L1 during solar cycle 23 (1996 to 2006, inclusive). A surprisingly large fraction of the IP shocks (~34%) was radio quiet (RQ; i.e., the shocks lacked type II radio bursts). We examined the properties of coronal mass ejections (CMEs) and soft X-ray flares associated with such RQ shocks and compared them with those of the radio-loud (RL) shocks. The CMEs associated with the RQ shocks were generally slow (average speed ~535 km s-1) and only ~40% of the CMEs were halos. The corresponding numbers for CMEs associated with RL shocks were 1237 km s-1 and 72%, respectively. Thus, the CME kinetic energy seems to be the deciding factor in the radio-emission properties of shocks. The lower kinetic energy of CMEs associated with RQ shocks is also suggested by the lower peak soft X-ray flux of the associated flares (C3.4 versus M4.7 for RL shocks). CMEs associated with RQ CMEs were generally accelerating within the coronagraph field of view (average acceleration ~+6.8 m s-2), while those associated with RL shocks were decelerating (average acceleration ~-3.5 m s-2). This suggests that many of the RQ shocks formed at large distances from the Sun, typically beyond 10 Rs, consistent with the absence of metric and decameter---hectometric (DH) type II radio bursts. A small fraction of RL shocks had type II radio emission solely in the kilometric (km) wavelength domain. Interestingly, the kinematics of the CMEs associated with the km type II bursts is similar to those of RQ shocks, except that the former are slightly more energetic. Comparison of the shock Mach numbers at 1 AU shows that the RQ shocks are mostly subcritical, suggesting that they were not efficient in accelerating electrons. The Mach number values also indicate that most of these are quasi-perpendicular shocks. The radio-quietness is predominant in the rise phase and decreases through the maximum and declining phases of solar cycle 23. About 18% of the IP shocks do not have discernible ejecta behind them. These shocks are due to CMEs moving at large angles from the Sun-Earth line and hence are not blast waves. The solar sources of the shock-driving CMEs follow the sunspot butterfly diagram, consistent with the higher-energy requirement for driving shocks.

Dates et versions

hal-03742839 , version 1 (02-08-2022)

Identifiants

Citer

Natchimuthuk Gopalswamy, H. Xie, P. Mäkelä, S. Akiyama, S. Yashiro, et al.. Interplanetary Shocks Lacking Type II Radio Bursts. The Astrophysical Journal, 2010, 710, pp.1111-1126. ⟨10.1088/0004-637X/710/2/1111⟩. ⟨hal-03742839⟩
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