A New Small Satellite Sunspot Triggering Recurrent Standard and Blowout Coronal Jets

Miao, Yuhu; Liu, Yu; Shen, Yuandeng; Elmhamdi, A.; Kordi, A. S.; Li, H. B.; Abidin, Zainal; Tian, Zhanjun

doi:10.3847/1538-4357/ab1a42

Cited by 13 publications

(13 citation statements)

References 77 publications

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“…According to the twin CME model of Shen et al (2012), a single blow-out jet drags two CMEs in the solar atmosphere as jet-like CME and bubble-like CME. This model is supported by many observational events (e.g., Alzate and Morgan, 2016;Miao et al, 2018Miao et al, , 2019Solanki et al, 2019;Duan et al, 2019). The study, observations, and analysis of these coupled events (Jet and CME) can give better insight to understand the multi-scale eruptive phenomena in the solar atmosphere and their relation in the interplanetary space.…”

Section: Introductionmentioning

confidence: 59%

“…This miniature version of the mini-filament eruption produces jets likewise as the large filament eruption produces coronal mass ejections (CMEs). Sometimes, the large-scale plasma motions in the form of reconnection driven jets also form the coronal mass ejections (CMEs) in the outer solar atmosphere (e.g., Shen et al, 2012;Alzate and Morgan, 2016;Miao et al, 2018Miao et al, , 2019Solanki et al, 2019;Duan et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

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CME Productive and Non-productive Recurring Jets Near an Active Region AR11176

2020

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We study the recurring jets near AR11176 during the period 2011 March 31 17:00 UT to April 1 05:00 UT using observations from the Atmospheric Imaging Assembly (AIA) on board Solar Dynamics Observatory (SDO). Minifilaments (mini-filament1 & 2) are found at the base of these recurring jets where mini-filament1 shows the partial signature of eruption in case of Jet1-3. However, the mini-filament2 shows a complete eruption driving a full blow-out jet (Jet4). The eruption of mini-filament2 triggers C-class flare and Jet4 eruption. The eruption of Jet4 triggers a coronal mass ejection (CME). The plane-of-sky velocity of recurring jets (Jet1-4) results in 160 km s −1 , 106 km s −1 , 151 km s −1 and 369 km s −1 . The estimated velocity of CME is 636 km s −1 . The continuous magnetic flux cancellation is observed at the base of the jet productive region which could be the cause of the eruption of mini-filaments and recurring jets. In the former case, the mini-filament1 shows partial eruption and first three jets (Jet1-3) are produced, but the rate of cancellation was rather low. However, in the latter case, mini-filament2 fully erupts (perhaps because of a higher cancellation rate), and this triggers a C-class flare and a CME-productive jet. At the base of first three jets (Jet1-3), the mini-filament1 causes to push the overlying dynamic complex thin loops resulting in the reconnection and drives the jet (Jet1-3) eruptions. The formation of the plasma blobs are observed during the eruption of the first jet (Jet1).

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Section: Introductionmentioning

confidence: 59%

Section: Introductionmentioning

confidence: 99%

CME Productive and Non-productive Recurring Jets Near an Active Region AR11176

2020

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“…Finally, the reconnection in the internal current sheet further results in the full eruption of the mini-filament and the formation of the broad bubble-like CME, during which the erupting filament material forms the jet's cool component. Recently, more and more observations have evidenced the appearance of paired narrow and broad CMEs in association with on-disc blowout jets [155,239,243,253,254], and the phenomenological model of Shen et al [63] provides a possible explanation for these observations; however, further observational and numerical investigation is required to confirm this scenario.…”

Section: (D) Coronal Mass Ejectionmentioning

confidence: 99%

Observation and modelling of solar jets

Shen

2021

Proc. R. Soc. A.

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The solar atmosphere is full of complicated transients manifesting the reconfiguration of the solar magnetic field and plasma. Solar jets represent collimated, beam-like plasma ejections; they are ubiquitous in the solar atmosphere and important for our understanding of solar activities at different scales, the magnetic reconnection process, particle acceleration, coronal heating, solar wind acceleration, as well as other related phenomena. Recent high-spatio-temporal-resolution, wide-temperature coverage and spectroscopic and stereoscopic observations taken by ground-based and space-borne solar telescopes have revealed many valuable new clues to restrict the development of theoretical models. This review aims at providing the reader with the main observational characteristics of solar jets, physical interpretations and models, as well as unsolved outstanding questions in future studies.

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“…Finally, the reconnection in the internal current sheet further results in the full eruption of the mini-filament and the formation of the broad bubble-like CME, during which the erupting filament material forms the jet's cool component. Recently, more and more observations evidenced the appearance of paired narrow and broad CMEs in association with on-disk blowout jets [155,240,243,253,254], and the phenomenological model of Shen et al [62] provides a possible explanation for these observations but further observational and numerical investigation is required to confirm this scenario.…”

Section: (D) Coronal Mass Ejectionmentioning

confidence: 99%

Observation and Modeling of Solar Jets

Shen

2021

Preprint

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The solar atmosphere is full of complicated transients manifesting the reconfiguration of solar magnetic field and plasma. Solar jets represent collimated, beam-like plasma ejections; they are ubiquitous in the solar atmosphere and important for the understanding of solar activities at different scales, magnetic reconnection process, particle acceleration, coronal heating, solar wind acceleration, as well as other related phenomena. Recent high spatiotemporal resolution, wide-temperature coverage, spectroscopic, and stereoscopic observations taken by ground-based and space-borne solar telescopes have revealed many valuable new clues to restrict the development of theoretical models. This review aims at providing the reader with the main observational characteristics of solar jets, physical interpretations and models, as well as unsolved outstanding questions in future studies.

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A New Small Satellite Sunspot Triggering Recurrent Standard and Blowout Coronal Jets

Cited by 13 publications

References 77 publications

CME Productive and Non-productive Recurring Jets Near an Active Region AR11176

CME Productive and Non-productive Recurring Jets Near an Active Region AR11176

Observation and modelling of solar jets

Observation and Modeling of Solar Jets

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