Interplanetary Shock Candidates Observed at Venus’s Orbit

Abstract

The measurements from the Venus Express spacecraft are analyzed for the basic properties of fast forward interplanetary shocks at Venus’s orbit (∼0.72 au). A total of 143 fast forward interplanetary shock candidates during 2006–2014 are identified. The shock angle ΘBn, defined as the angle between the shock normal and the upstream magnetic field, and the magnetic compression ratio r B, defined as the ratio of the magnetic field strength downstream to that upstream, of these shocks are determined based on the magnetic coplanarity method. The shock occurrence at Venus shows a correlated variation with the solar activity level measured by the number of sunspots, while the shock angle and magnetic compression ratio do not show such a correspondence. The shock angle spreads almost uniformly between 10° and 80° with its mean value at about 45°, and the magnetic compression ratio shows a unimodal distribution between 1.0 and 4.5 with a mean value of 2.1. In addition, we also analyze the properties of fast forward shocks driven by interplanetary coronal mass ejections (ICMEs). We found that interplanetary shocks with and without detected ICMEs showed no significant differences in terms of the shock strength and the shock angle. Further comparison with previous observational results at 1 au shows that fast forward shocks at 1 au are generally weaker than those at 0.72 au, and the shock angle ΘBn is more perpendicular at 1 au.