The Lyman-alpha Emission in Solar Flares. I. a Statistical Study on Its Relationship with the 1--8 \ Soft X-ray Emission

Abstract

We statistically study the relationship between the Lyman-alpha () and 1--8 \ soft X-ray (SXR) emissions from 658 M- and X-class solar flares observed by the Geostationary Operational Environmental Satellite during 2006--2016. Based on the peak times of the two waveband emissions, we divide the flares into three types. Type I (III) has an earlier (a later) peak time in the \ emission than that in the SXR emission, while type II has nearly a same peak time (within the time resolution of 10 s) between the \ and SXR emissions. In these 658 flares, we find that there are 505 (76.8\%) type I flares, 10 (1.5\%) type II flares, and 143 (21.7\%) type III flares, and that the three types appear to have no dependence on the flare duration, flare location, or solar cycle. Besides the main peak, the \ emission of the three type flares also shows sub-peaks which can appear in the impulsive or gradual phase of the flare. It is found that the main-peak (for type I) and sub-peak (for type III) emissions of \ that appear in the impulsive phase follow the Neupert effect in general. This indicates that such \ emissions are related to the nonthermal electron beam heating. While the main-peak (for type III) and sub-peak (for type I) emissions of \ that appear in the gradual phase are supposed to be primarily contributed by the thermal plasma that cools down.