Herringbone structures during an X-class eruptive flare

Abstract

In this paper, we report quasi-periodic herringbone structures during the impulsive phase of an X-class flare, coinciding with the distinct acceleration phase of eruptive prominence ejection on 2023 December 31. The prominence propagates non-radially in the southeast direction with an inclination angle of 354. The fast coronal mass ejection (CME) at a speed of 2852 km s-1 drives a shock wave and a coronal EUV wave. The herringbone structures lasting for 4 minutes take place at the initial stage of a group of type II radio burst. The herringbones in the frequency range 20-70 MHz are characterized by simultaneous forward-drift and reverse-drift bursts with average durations of 2.5 s and 3.1 s. The frequency drift rates of these bursts fall in a range of 1.3-9.4 MHz s-1 with average values of 3.6 and 4.1 MHz s-1, respectively. The speeds of electron beams producing the herringbones are estimated to be 0.04-0.41 c, with average values of 0.23 c and 0.11 c for forward-drifting and reverse-drift bursts, respectively. The heights of particle acceleration regions are estimated to be 0.64-0.78 R above the photosphere, which are consistent with the height of CME front (0.75 R) when the shock forms. Quasi-periodic pulsations with periods of 17.5-21.3 s are found in the radio fluxes of herringbones, suggesting that electrons are accelerated by the CME-driven shock intermittently.