2017
DOI: 10.3847/1538-4357/aa8ad1
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A Three-dimensional Magnetohydrodynamic Simulation of the Formation of Solar Chromospheric Jets with Twisted Magnetic Field Lines

Abstract: This paper presents a three-dimensional simulation of chromospheric jets with twisted magnetic field lines. Detailed treatments of the photospheric radiative transfer and the equation of states allow us to model realistic thermal convection near the solar surface, which excites various MHD waves and produces chromospheric jets in the simulation. A tall chromospheric jet with a maximum height of 10-11 Mm and lifetime of 8-10 min is formed above a strong magnetic field concentration. The magnetic field lines are… Show more

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Cited by 77 publications
(67 citation statements)
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“…This result provides a simple explanation and is in contrast with that in Martínez-Sykora et al (2017), where, using 2D simulations, the formation of spicules is explained in terms of the amplification of the magnetic tension and the interaction between ions and neutrals. In our simulation we show that, even if magnetic tension is important, the magnetic pressure, which is related to full Lorentz force being important as well, which is consistent with the results obtained in the simulations of vortex tubes (Kitiashvili et al 2013) and in the formation of solar chromospheric jets (Iijima & Yokoyama 2017), a quantitative distinction between the components of the different forces involved would require the development of new analysis tools for time-dependent structures.…”
Section: Discussionsupporting
confidence: 74%
“…This result provides a simple explanation and is in contrast with that in Martínez-Sykora et al (2017), where, using 2D simulations, the formation of spicules is explained in terms of the amplification of the magnetic tension and the interaction between ions and neutrals. In our simulation we show that, even if magnetic tension is important, the magnetic pressure, which is related to full Lorentz force being important as well, which is consistent with the results obtained in the simulations of vortex tubes (Kitiashvili et al 2013) and in the formation of solar chromospheric jets (Iijima & Yokoyama 2017), a quantitative distinction between the components of the different forces involved would require the development of new analysis tools for time-dependent structures.…”
Section: Discussionsupporting
confidence: 74%
“…from -2 to 14 Mm above the solar surface. The setup of this simulation is explained in Iijima & Yokoyama (2017) although we describe below some of its properties for the sake of clarity.…”
Section: Simulations and Methodologymentioning
confidence: 99%
“…We focus on the region enclosed by a box (see Figure 1) that is centred on the chromospheric jet studied in Iijima & Yokoyama (2017). This feature has a maximum height of 10 Mm, and its core is hotter than its surroundings at chromospheric layers.…”
Section: Simulations and Methodologymentioning
confidence: 99%
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