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Definite spectroscopic evidence for magnetic reconnection in splitting of solar filament structure

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Definite spectroscopic evidence for magnetic reconnection in splitting of solar filament structure


Splitting and partial eruption of the filament construction. (a)–(f) Photos of SDO/AIA 304 Å ((a)–(c), (f)) and 131 Å ((d)–(e)). (g) Time–distance profile created by stacking AIA 304 Å photos alongside the dashed line in (a), overlaid with GOES-15 1–8 Å X-ray flux in cyan coloration. The sector of views (FOVs) of (a)–(f) are the identical, whose coordinates are differentially rotated and are aligned to these of (b). “F1” and “F2” in (a), (c), (f), and (g) point out the decrease and higher filament branches, respectively. In (b) the arrow marks a brightening area between the 2 branches signifying the splitting. “E1” and “E2” in (d)–(e) denote two flares related to the partial eruption. In (g) the dotted line on the left signifies the approximate time of the splitting, and the close by two pairs of arrows illustrate the total width of the 2 filament branches earlier than and after the splitting; the 2 dashed–dotted strains mark the instances of the X-ray flux peaks of flares “E1” and “E2.” The dashed rectangle in (b) represents the FOV of the IRIS raster scan displayed in Figures 2(c)–(e), and the 2 brief vertical bars in (g) denote that the period of the raster scan that overlaps the splitting. An animation for (a)–(c) is obtainable, which begins at 07-13T22:00 UT and ends at 07-14T06:00 UT. The strains, arrows, and different annotations are eliminated within the animation. The actual-time animation period is ∼34 s. Credit score: The Astrophysical Journal Letters (2022). DOI: 10.3847/2041-8213/ac9dfd

Magnetic reconnection is a common course of that modifications magnetic topology and converts magnetic vitality to plasma kinetic vitality. Spatially resolved spectroscopic observations protecting prolonged areas within the solar environment are uncommon, and thus the distribution and vitality partition of reconnection stay unclear.

A filament is a darker and denser construction within the solar atmosphere. Doppler shifts of bidirectional outflows, as particular proof for reconnection, haven’t been detected in solar filament splitting thus far.

Nevertheless, now, researchers led by Dr. Hu Huidong from the Nationwide Area Science Heart of the Chinese language Academy of Sciences, together with their collaborators from Max Planck Institute for Photo voltaic System Analysis in Germany and Nanjing College in China, have reported a magnetic-reconnection occasion that induced the splitting of a solar filament construction, based mostly on spatially resolved spectroscopic knowledge from the Interface Area Imaging Spectrograph (IRIS) and pictures from the Photo voltaic Dynamics Observatory (SDO).

The research was printed in The Astrophysical Journal Letters.

“The filament construction was break up into two higher and decrease branches by magnetic reconnection, which ultimately erupted partially, with the higher department ejected and the decrease department retained,” stated Dr. Hu.

Credit score: The Astrophysical Journal Letters (2022). DOI: 10.3847/2041-8213/ac9dfd

Neighboring massive blue- and redshifts (greater than 50 km/s) of the Si IV line within the brightening area between the 2 filament branches have been revealed, which spatially corresponded to massive nonthermal widths and enhanced intensities of the Si IV line. These are clear signatures of magnetic reconnection. The size of the reconnection area is unprecedentedly at least 14,000 km.

A double Gaussian match of the road spectra illustrated blue- and redshifts (as much as ~150 km/s) of the upward and downward outflows. The discount of the general line width indicated that the line-of-sight velocities decreased remarkably after the bidirectional outflows left the reconnection web site. Line broadening on the blue wing a number of arcseconds away from the reconnection web site was noticed, which may be indicative of turbulence that was induced when the upward outflow interacted with the higher filament department.

Differential-emission-measure evaluation confirmed that the temperature through the reconnection was ~14 MK, ~9 MK increased than that earlier than the reconnection. The electron density was ~3.9×1010 cm-3, about twice that earlier than the reconnection. The total thermal vitality was estimated to be ~1.3×1027 ergs, which was a lot bigger than the kinetic energy.

“Our research has offered particular spectroscopic proof for the splitting of a filament construction by magnetic reconnection,” stated Dr. Hu. “The reconnection is in an prolonged area with an unprecedented size, and the thermal vitality overwhelmingly dominates the kinetic vitality on this reconnection occasion.”

Extra data:
Huidong Hu et al, Spectroscopic and Imaging Observations of Spatially Prolonged Magnetic Reconnection within the Splitting of a Photo voltaic Filament Construction, The Astrophysical Journal Letters (2022). DOI: 10.3847/2041-8213/ac9dfd

Quotation:
Particular spectroscopic proof for magnetic reconnection in splitting of solar filament construction (2023, January 18)
retrieved 18 January 2023
from https://phys.org/information/2023-01-definite-spectroscopic-evidence-magnetic-reconnection.html

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