Origin of Quasi-Periodic Pulsation at the Base of Kink Unstable Jet

TL;DR

This study investigates a solar blowout jet, revealing that magnetic reconnection causes quasi-periodic pulsations with a dominant period of about 3 minutes, primarily involving cool plasma and supported by spectroscopic and imaging data.

Contribution

It provides new insights into the periodic nature of magnetic reconnection and plasma dynamics in blowout jets, highlighting the role of QPPs and cool plasma dominance.

Findings

QPPs with a period of approximately 3 minutes were observed.

Magnetic reconnection is indicated by broad, complex spectral profiles and bi-directional flows.

The jet spire mainly consists of cool plasma rather than hot coronal material.

Abstract

We study a blowout jet that occurs at the west limb of the Sun on August 29$^{th}$, 2014 using high-resolution imaging/spectroscopic observations provided by SDO/AIA and IRIS. An inverse $\gamma$-shape flux-rope appears before the jet{--} morphological indication of the onset of kink instability. The twisted field lines of kink-unstable flux-rope reconnect at its bright knot and launch the blowout jet at $\approx$06:30:43 UT with an average speed of 234 km s$^{-1}$. Just after the launch, the northern leg of the flux rope erupts completely. The time-distance diagrams show multiple spikes or bright dots, which is the result of periodic fluctuations, i.e., quasi-periodic fluctuations (QPPs). The wavelet analysis confirms that QPPs have a dominant period of $\approx$ 03 minutes. IRIS spectra (Si~{\sc iv}, C~{\sc ii}, and Mg~{\sc ii}) may also indicate the occurrence of magnetic reconnection through existence of broad $\&$ complex profiles and bi-directional flows in the jet. Further, we have found that line broadening is periodic with a period of $\approx$ 03 minutes, and plasma upflow is always occurs when the line width is high, i.e., multiple reconnection may produce periodic line broadening. The EM curves also show the same period of $\approx$ 03 minutes in different temperature bins. The images and EM show that this jets spire is mainly cool (chromospheric/transition region) rather than hot (coronal) material. Further, line broadening, intensity, and EM curves have a period of $\approx$03 minutes, which strongly supports that multiple magnetic reconnection triggers QPPs in the blowout jet.