Cristiana Dumitrache
Published 2017-03-18Version 1
We have performed numerical magnetohydrodynamic (MHD) simulations of two closed active regions (AR). The input magnetic field values were the coronal magnetic field computed as extrapolation coronal from observations of the photospheric magnetic field. The studied active regions, NOAA AR12565 and AR12567, were registered as different bipolar region. Our investigation, the 3D coronal extrapolations, as well as the numerical MHD experiments, revealed that actually they evolved together as a quadrupolar active region. The second region emerged later under the loops system of AR12565 and separated from this one. A natural current sheet formed between then and it plays an important role in the explosive events (flares and coronal mass ejections) occurrence.
Journal: Advances in Astrophysics, vol.2, No.2, 103-116, 2017
Numerical Simulations of Coronal Heating through Footpoint Braiding
Coronal magnetic field and emission properties of small-scale bright and faint loops in the quiet Sun
Numerical simulations of conversion to Alfven waves in sunspots
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