# Satellite observations of reconnection between emerging and pre-existing   small-scale magnetic fields

**Authors:** S.L. Guglielmino, F. Zuccarello, P.R. Young, P. Romano, M. Murabito

arXiv: 1901.01056 · 2019-07-17

## TL;DR

This study uses multi-wavelength satellite observations to investigate small-scale magnetic reconnection during flux emergence in the solar atmosphere, revealing dynamic plasma heating, jet activity, and bi-directional flows.

## Contribution

It provides detailed observational evidence of magnetic reconnection processes at small scales in the solar atmosphere during flux emergence.

## Key findings

- Detection of UV bursts and jet activity at emergence sites.
- Observation of bi-directional high-velocity flows up to 100 km/s.
- Correlation between Doppler velocity, line width, and skewness in UV burst profiles.

## Abstract

We report multi-wavelength ultraviolet observations taken with the IRIS satellite, concerning the emergence phase in the upper chromosphere and transition region of an emerging flux region (EFR) embedded in the unipolar plage of active region NOAA 12529. The photospheric configuration of the EFR is analyzed in detail benefitting from measurements taken with the spectropolarimeter aboard the Hinode satellite, when the EFR was fully developed. In addition, these data are complemented by full-disk, simultaneous observations of the SDO satellite, relevant to the photosphere and the corona. In the photosphere, magnetic flux emergence signatures are recognized in the fuzzy granulation, with dark alignments between the emerging polarities, cospatial with highly inclined fields. In the upper atmospheric layers, we identify recurrent brightenings that resemble UV bursts, with counterparts in all coronal passbands. These occur at the edges of the EFR and in the region of the arch filament system (AFS) cospatial to the EFR. Jet activity is also found at chromospheric and coronal levels, near the AFS and the observed brightness enhancement sites. The analysis of the IRIS line profiles reveals the heating of dense plasma in the low solar atmosphere and the driving of bi-directional high-velocity flows with speeds up to 100 km/s at the same locations. Furthermore, we detect a correlation between the Doppler velocity and line width of the Si IV 1394 and 1402 \AA{} line profiles in the UV burst pixels and their skewness. Comparing these findings with previous observations and numerical models, we suggest evidence of several long-lasting, small-scale magnetic reconnection episodes between the emerging bipole and the ambient field. This process leads to the cancellation of a pre-existing photospheric flux concentration of the plage with the opposite polarity flux patch of the EFR. [...]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1901.01056/full.md

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1901.01056/full.md

## References

17 references — full list in the complete paper: https://tomesphere.com/paper/1901.01056/full.md

---
Source: https://tomesphere.com/paper/1901.01056