Dynamics of Magnetized Accretion Disks of Young Stars
Электронный научный архив УРФУ
Информация об архиве | Просмотр оригинала| Поле | Значение | |
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Dynamics of Magnetized Accretion Disks of Young Stars
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| Автор |
Khaibrakhmanov, S. A.
Dudorov, A. E. |
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| Тематика |
ACCRETION
ACCRETION DISKS MAGNETIC FIELDS MAGNETOHYDRODYNAMICS (MHD) |
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| Описание |
Abstract: We investigate the dynamics of the accretion disks of young stars with fossil large-scale magnetic field. The author’s magnetohydrodynamic (MHD) model of the accretion disks is generalized to take into account the dynamical influence of the magnetic field on gas rotation speed and vertical structure of the disks. With the help of the developed MHD model, the structure of an accretion disk of a solar mass T Tauri star is simulated for different accretion rates (Formula presented.) and dust grain sizes (Formula presented.). The simulations of the radial structure of the disk show that the magnetic field in the disk is kinematic, and the electromagnetic force does not affect the rotation speed of the gas for typical values (Formula presented.) = 0.1 µm. In the case of large dust grains, (Formula presented.) mm, the magnetic field is frozen into the gas and a dynamically strong magnetic field is generated at radial distances from the star (Formula presented.) AU, the tensions of which slow down the rotation speed by (Formula presented.) 1.5% of the Keplerian velocity. This effect is comparable to the contribution of the radial gradient of gas pressure and can lead to the increase in the radial drift velocity of dust grains in the accretion disks. In the case of high accretion rate, (Formula presented.), the magnetic field is also dynamically strong in the inner region of the disk, r < 0.2 AU. The simulations of the vertical structure of the disk show that, depending on the conditions on the surface of the disk, the vertical gradient of magnetic pressure can lead to both decrease and increase in the characteristic thickness of the disk as compared to the hydrostatic one by 5–20%. The change in the thickness of the disk occurs outside the region of low ionization fraction and effective magnetic diffusion (“dead” zone), which extends from r = 0.3 to 20 AU. © 2022, Pleiades Publishing, Ltd.
Ministry of Education and Science of the Russian Federation, Minobrnauka, (075-15-2020-780, 780-10, N13.1902.21.0039) Government Council on Grants, Russian Federation The work of S.A. Khaibrakhmanov in Section 4.2 was carried out with the support of the Government of the Russian Federation and the Ministry of Higher Education and Science of the Russian Federation under grant 075-15-2020-780 (N13.1902.21.0039, contract 780-10). |
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| Дата |
2024-04-08T11:06:18Z
2024-04-08T11:06:18Z 2022 |
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| Тип |
Article
Journal article (info:eu-repo/semantics/article) info:eu-repo/semantics/submittedVersion |
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| Идентификатор |
Khaibrakhmanov, SA & Dudorov, AE 2022, 'Dynamics of Magnetized Accretion Disks of Young Stars', Astronomy Reports, Том. 66, № 10, стр. 872-885. https://doi.org/10.1134/S1063772922100079
Khaibrakhmanov, S. A., & Dudorov, A. E. (2022). Dynamics of Magnetized Accretion Disks of Young Stars. Astronomy Reports, 66(10), 872-885. https://doi.org/10.1134/S1063772922100079 1063-7729 Final All Open Access; Green Open Access https://arxiv.org/pdf/2208.02871 https://arxiv.org/pdf/2208.02871 http://elar.urfu.ru/handle/10995/131302 10.1134/S1063772922100079 85144146296 000904550300003 |
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| Язык |
en
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| Права |
Open access (info:eu-repo/semantics/openAccess)
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| Формат |
application/pdf
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| Издатель |
Pleiades Publishing
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| Источник |
Astronomy Reports
Astronomy Reports |
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