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W4307388610 abstract "Context. Prominences are cool, dense clouds suspended within the solar corona. Their in situ formation through the levitation-condensation mechanism is a textbook example of the thermal instability, where a slight energy imbalance leads to a runaway process resulting in condensed filamentary structures embedded within the concave-up portions of a flux rope. The detailed interplay between local radiative losses and the global heating of the solar corona is investigated here for prominence-forming flux rope structures. Aims. We begin by exploring the influence of two classes of commonly adopted heating models on the formation behaviour of solar prominences. These models consider either an exponential variation dependent on height alone, or local density and magnetic field conditions. We highlight and address some of the limitations inherent to these early approximations by proposing a new, dynamic 2D flux rope heating model that qualitatively accounts for the 3D topology of the twisted flux rope field. Methods. We performed 2.5D grid-adaptive numerical simulations of prominence formation via the levitation-condensation mechanism. A linear force-free arcade is subjected to shearing and converging motions, leading to the formation of a flux rope containing material that may succumb to thermal instability. The eventual formation and subsequent evolution of prominence condensations was then quantified as a function of the specific background heating prescription adopted. For the simulations that consider the topology of the flux rope, reduced heating was considered within a dynamically evolving ellipse that traces the flux rope cross-section. This ellipse is centred on the flux rope axis and tracked during runtime using an approach based on the instantaneous magnetic field curvature. Results. We find that the nature of the heating model is clearly imprinted on the evolution and morphology of any resulting prominences: one large, low-altitude condensation is obtained for the heating model based on local parameters, while the exponential model leads to the additional formation of smaller blobs throughout the flux rope which then relocate as they tend towards achieving hydrostatic equilibrium. Finally, a study of the condensation process in phase space reveals a non-isobaric evolution with an eventual recovery of uniform pressure balance along flux surfaces." @default.
W4307388610 created "2022-11-01" @default.
W4307388610 creator A5017295146 @default.
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W4307388610 date "2022-12-01" @default.
W4307388610 modified "2023-10-14" @default.
W4307388610 title "The influence of flux rope heating models on solar prominence formation" @default.
W4307388610 cites W1635125275 @default.
W4307388610 cites W1949481787 @default.
W4307388610 cites W1973446104 @default.
W4307388610 cites W1994239001 @default.
W4307388610 cites W1996791525 @default.
W4307388610 cites W2006300558 @default.
W4307388610 cites W2013997547 @default.
W4307388610 cites W2030450542 @default.
W4307388610 cites W2036547225 @default.
W4307388610 cites W2039919436 @default.
W4307388610 cites W2041471027 @default.
W4307388610 cites W2043057066 @default.
W4307388610 cites W2047170888 @default.
W4307388610 cites W2053215453 @default.
W4307388610 cites W2053227383 @default.
W4307388610 cites W2053240517 @default.
W4307388610 cites W2063340729 @default.
W4307388610 cites W2080176543 @default.
W4307388610 cites W2081519494 @default.
W4307388610 cites W2100414413 @default.
W4307388610 cites W2112192170 @default.
W4307388610 cites W2135628184 @default.
W4307388610 cites W2143185655 @default.
W4307388610 cites W2153698268 @default.
W4307388610 cites W2169060934 @default.
W4307388610 cites W2297137899 @default.
W4307388610 cites W2497254229 @default.
W4307388610 cites W2621098681 @default.
W4307388610 cites W2654054663 @default.
W4307388610 cites W2785379947 @default.
W4307388610 cites W2896494722 @default.
W4307388610 cites W2898086366 @default.
W4307388610 cites W2899094771 @default.
W4307388610 cites W2903196516 @default.
W4307388610 cites W2906913380 @default.
W4307388610 cites W2913534969 @default.
W4307388610 cites W2924493809 @default.
W4307388610 cites W3013885731 @default.
W4307388610 cites W3016863676 @default.
W4307388610 cites W3099704460 @default.
W4307388610 cites W3100895936 @default.
W4307388610 cites W3101082864 @default.
W4307388610 cites W3101371922 @default.
W4307388610 cites W3102993410 @default.
W4307388610 cites W3103694533 @default.
W4307388610 cites W3103796921 @default.
W4307388610 cites W3103960057 @default.
W4307388610 cites W3104140731 @default.
W4307388610 cites W3104279465 @default.
W4307388610 cites W3104750466 @default.
W4307388610 cites W3105005712 @default.
W4307388610 cites W3105406077 @default.
W4307388610 cites W3105652726 @default.
W4307388610 cites W3106294653 @default.
W4307388610 cites W3110697800 @default.
W4307388610 cites W3111172227 @default.
W4307388610 cites W3156518148 @default.
W4307388610 cites W3159685171 @default.
W4307388610 cites W3192349594 @default.
W4307388610 cites W3195275232 @default.
W4307388610 cites W3195293838 @default.
W4307388610 cites W3206393499 @default.
W4307388610 cites W3214685927 @default.
W4307388610 cites W4214494621 @default.
W4307388610 cites W4242429462 @default.
W4307388610 cites W4254810513 @default.
W4307388610 cites W4285015048 @default.
W4307388610 cites W4288076335 @default.
W4307388610 cites W4299561929 @default.
W4307388610 cites W4300541628 @default.
W4307388610 cites W4307388610 @default.
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W4307388610 doi "https://doi.org/10.1051/0004-6361/202244071" @default.
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