Kinematics of ICMEs/shocks: blast wave reconstruction using type II emissions

TL;DR

This paper introduces a blast wave reconstruction method using type II radio emissions to accurately track interplanetary shocks and predict their arrival times and speeds at Earth.

Contribution

The paper presents a novel physical methodology for reconstructing interplanetary shock trajectories from type II radio emissions, improving space weather forecasting.

Findings

The BWR technique accurately reproduces shock trajectories.

Good agreement with coronagraph, in situ, and IPS data.

Perturbations affect reconstruction accuracy.

Abstract

We present a physical methodology to reconstruct the trajectory of interplanetary shocks using type II radio emission data. This technique calculates the shock trajectory assuming that the disturbance propagates as a blast wave in the interplanetary medium. We applied this Blast Wave Reconstruction (BWR) technique to analyze eight fast Earth-directed ICMEs/shocks associated with type II emissions. The technique deduces a shock trajectory that reproduces the type II frequency drifts, and calculates shock onset speed, shock transit time and shock speed at 1 AU. There were good agreements comparing the BWR results with the type II spectra, with data from coronagraph images, in situ measurements, and interplanetary scintillation (IPS) observations. Perturbations on the type II data affect the accuracy of the BWR technique. This methodology could be applied to track interplanetary shocks causing TII emissions in real-time, to predict the shock arrival time and shock speed at 1 AU.