Formation of Isolated Radio Type II Bursts at Low Frequencies

TL;DR

This study analyzes 26 isolated radio Type II bursts at low frequencies, revealing their origins, association with CME shocks, and unique coronal conditions necessary for their formation and disappearance.

Contribution

It provides the first detailed analysis of isolated DH Type II bursts, highlighting their distinct origins and conditions compared to other radio emissions.

Findings

Only 30% originated from the far side of the Sun.

Almost none originated from the central solar region (E30-W40).

Most were associated with shocks near CME leading fronts.

Abstract

The first appearance of radio type II burst emission at decameter-hectometer (DH) waves typically occurs in connection, and often simultaneously, with other types of radio emissions. As type II bursts are signatures of propagating shock waves that are associated with flares and coronal mass ejections (CMEs), a rich variety of radio emissions can be expected. However, sometimes DH type II bursts appear in the dynamic spectra without other or earlier radio signatures. One explanation for them could be that the flare-CME launch happens on the far side of the Sun, and the emission is observed only when the source gets high enough in the solar atmosphere. In this study we have analysed 26 radio type II bursts that started at DH waves and were well-separated ('isolated') from other radio emission features. These bursts were identified from all DH type II bursts observed in 1998-2016, and for 12 events we had observations from at least two different viewing angles with the instruments onboard Wind and STEREO satellites. We found that only 30% of the type II bursts had their source origin on the far side of the Sun, but also that no bursts originated from the central region of the Sun (longitudes E30 - W40). Almost all of the isolated DH type II bursts could be associated with a shock near the CME leading front, and only few were determined to be shocks near the CME flank regions. In this respect our result differs from earlier findings. Our analysis, which included inspection of various CME and radio emission characteristics, suggests that the isolated DH type II bursts could be a special subgroup within DH type II bursts, where the radio emission requires particular coronal conditions to form and to die out.