Abstract
A comprehensive statistical analysis on the properties and accompanied phenomena of all M-class solar flares (as measured in soft X-rays) in the last two solar cycles (1996–2019) is presented here with a focus on their space weather potential. The information about the parent active region and the underlying sunspot (Hale) type is collected for each case, where possible, in order to identify photospheric precondition as precursors for the solar flare eruption or confinement. Associations with coronal mass ejections, solar energetic particles, and interplanetary radio emissions are also evaluated and discussed as possible proxies for flare eruption and subsequent space weather relevance. The results show that the majority (∼80%) of the analyzed M-class flares are of β, β-γ, and β-γ-δ magnetic field configuration. The M-class population of flares is accompanied by CMEs in 41% of the cases and about half of the flare sample has been associated with radio emission from electron beams. A much lower association (≲10%) is obtained with shock wave radio signatures and energetic particles. Furthermore, a parametric scheme is proposed in terms of occurrence rates between M-class flares and a variety of accompanied solar phenomena as a function of flare sub-classes or magnetic type. This study confirms the well-known reduced but inevitable space weather importance of M-class flares.
Highlights
The electromagnetic (EM) waves emitted during solar eruptions, together with a major reconfiguration of magnetic field lines, acceleration of particles, and mass motion are commonly referred to as solar flare (SF [1,2])
The emission can cover from the γ-ray to the radio domain in the EM spectrum. It is the observed brightening in solar images that is commonly regarded as a SF, usually in soft X-ray (SXR) and extreme ultraviolet (EUV) wavelengths
The same color code is used in all figures, namely with black color are denoted the events occurring in SC23 (1428 events in total), whereas red color is used for SC24 (749 events)
Summary
The electromagnetic (EM) waves emitted during solar eruptions, together with a major reconfiguration of magnetic field lines, acceleration of particles, and mass motion are commonly referred to as solar flare (SF [1,2]). These are the most energetic processes that occur in our solar system as the released energy in 10s min can reach 1025 Joules in the extreme cases [3,4]. The emission can cover from the γ-ray to the radio domain in the EM spectrum It is the observed brightening in solar images that is commonly regarded as a SF, usually in soft X-ray (SXR) and extreme ultraviolet (EUV) wavelengths. EUV measurements in a variety of wavelengths from a space mission, such as SOHO (SOlar and Heliospheric Observatory-SOHO, a joint ESA−NASA mission, https://www.esa.int/Science_Exploration/Space_Science/SOHO_overview2,https: //soho.nascom.nasa.gov/ (accessed on 15 November 2021)), TRACE
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