Abstract
Abstract A solar jet that occurred on 2014 July 31, which was accompanied by a GOES C1.3 flare and a mini-filament eruption at the jet base, was studied by using observations taken by the New Vacuum Solar Telescope and the Solar Dynamic Observatory. Magnetic field extrapolation revealed that the jet was confined in a fan-spine magnetic system that hosts a null point at the height of about 9 Mm from the solar surface. An inner flare ribbon surrounded by an outer circular ribbon and a remote ribbon were observed to be associated with the eruption, in which the inner and remote ribbons, respectively located at the footprints of the inner and outer spines, while the circular one manifested the footprint of the fan structure. It is worth noting that the west part of the circular ribbon exhibited an interesting round-trip slipping motion, while the inner ribbon and the circular ribbon’s east part displayed a northward slipping motion. Our analysis results indicate that the slipping motions of the inner and the circular flare ribbons reflected the slipping magnetic reconnection process in the fan’s quasi-separatrix layer, while the remote ribbon was associated with the magnetic reconnection at the null point. In addition, the filament eruption was probably triggered by the magnetic cancellation around its south end, which further drove the slipping reconnection in the fan quasi-separatrix layer and the reconnection at the null point.
Highlights
Jet or jet-like phenomena are widely observed in the solar atmosphere; they are thought to be important for understanding the enigmatic problems of coronal heating and the acceleration of solar winds (Raouafi et al 2016)
Solar jets are divided into collimated anemone jets and two-sided-loop jets, in which the former is produced by the magnetic reconnection between emerging bipoles and the ambient open magnetic fields (Yokoyama & Shibata 1995; Shen et al 2011), while the latter is produced by the reconnection between emerging bipoles and the overlying horizontal fields (Yokoyama & Shibata 1995; Tian et al 2017; Miao et al 2018; Sterling et al 2019)
On 2014 July 31, a solar jet, which was accompanied by a GOES C1.3 flare and the eruption of a mini-filament within the eruption source region, occurred at the west periphery of active region AR12127
Summary
Jet or jet-like phenomena are widely observed in the solar atmosphere; they are thought to be important for understanding the enigmatic problems of coronal heating and the acceleration of solar winds (Raouafi et al 2016). Coronal jets are frequently occurring in fan-spine magnetic topologies associated with parasitic polarities We report the first fan-spine jet in which the circular flare ribbon has exhibited round-trip slipping motion, using high-resolution Hα images taken by the New Vacuum Solar Telescope (NVST; Liu et al 2014) and the Solar Dynamic Observatory (SDO; Pesnell et al 2012). The pixel size and cadence of the AIA EUV images (HMI LOS magnetograms) are 0 6 (0 5) and 12 (45) s, respectively
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