Spectral variations within solar flare ribbons (2402.10611v3)

Abstract: Solar flare ribbons are intense brightenings of principally chromospheric material that are responsible for a large fraction of the chromospheric emission in solar and stellar flares. We present an on-disc observation of flare ribbon substructures in an X9.3-class flare observed by the Swedish 1-m Solar Telescope. We identify categories of ribbon substructures seen in the Ca II 8542 \AA, H$\alpha$, and Ca II K lines, focusing on their spatial locations and their (spectro-)polarimetric properties. Color Collapsed Plotting (COCOPLOT) software is used to assist in identifying areas of interest. We present five categories of spectral profiles within the general body of the flare ribbon: (1) Extremely broadened spectral line profiles, where the standard Fabry-Perot interferometer wavelength windows ($\approx 70$ km s$^{-1}$) are insufficiently wide to allow for a complete analysis of the dynamics and atmospheric conditions. The mechanisms causing this degree of this broadening are not yet clearly understood. (2) Long-lived, dense kernels that manifest as more saturated chromospheric line profiles with lower signal in both Stokes parameters. They are interpreted as footpoints of bunched magnetic field loops, whose chromospheric lines form at greater heights than the nearby areas. (3) Doppler-shifted leading edges of the flare ribbon in regions that transiently display lower Stokes signals due to the emission dominating at greater heights in the atmosphere. (4) Condensed coronal rain overlapping the flare ribbons in the line of sight, producing exceptionally high Doppler shifts near the footpoints...