Accretion to Stars with Non-dipole Magnetic Fields
Disc accretion to a rotating star with a non-dipole magnetic field is investigated for the first time in full three-dimensional (3D) magnetohydrodynamic (MHD) simulations. We investigated the cases of (1) pure dipole, (2) pure quadrupole, and (3) dipole plus quadrupole fields. The quadrupole magneti...
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| Online Access: | http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.255.1446 http://arxiv.org/pdf/astro-ph/0610487v1.pdf |
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ftciteseerx:oai:CiteSeerX.psu:10.1.1.255.1446 2023-05-15T18:23:13+02:00 Accretion to Stars with Non-dipole Magnetic Fields M. Long M. M. Romanova R. V. E. Lovelace The Pennsylvania State University CiteSeerX Archives 2006 application/pdf http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.255.1446 http://arxiv.org/pdf/astro-ph/0610487v1.pdf en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.255.1446 http://arxiv.org/pdf/astro-ph/0610487v1.pdf Metadata may be used without restrictions as long as the oai identifier remains attached to it. http://arxiv.org/pdf/astro-ph/0610487v1.pdf text 2006 ftciteseerx 2016-01-07T19:53:56Z Disc accretion to a rotating star with a non-dipole magnetic field is investigated for the first time in full three-dimensional (3D) magnetohydrodynamic (MHD) simulations. We investigated the cases of (1) pure dipole, (2) pure quadrupole, and (3) dipole plus quadrupole fields. The quadrupole magnetic moment D is taken to be parallel to the dipole magnetic moment µ, and both are inclined relative to the spin axis of the star Ω at an angle Θ. Simulations have shown that in each case the structure of the funnel streams and associated hot spots on the surface of the star have specific features connected with the magnetic field configuration. In the pure dipole case matter accretes in two funnel streams which form two arch-like spots near the magnetic poles. In the case of a pure quadrupole field, most of the matter flows through the quadrupole “belt ” forming a ring-shaped hot region on the magnetic equator. In the case of a dipole plus quadrupole field, magnetic flux in the northern magnetic hemisphere is larger than that in the southern, and the quadrupole belt and the ring are displaced to the south. The stronger the quadrupole, the closer the ring is to the magnetic equator. At sufficiently large Θ, matter also flows to the south pole, forming a hot spot near the pole. The light curves have a variety of different features which makes it difficult to derive the magnetic field configuration from the light curves. There are specific features which are different in cases of dipole and quadrupole dominated magnetic field: (1) Angular momentum flow between the star and disc is more efficient in the case of the dipole field; (2) Hot spots are hotter and brighter in case of the dipole field because the matter accelerates over a longer distance compared with the flow in a quadrupole case. Text South pole Unknown South Pole |
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ftciteseerx |
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English |
| description |
Disc accretion to a rotating star with a non-dipole magnetic field is investigated for the first time in full three-dimensional (3D) magnetohydrodynamic (MHD) simulations. We investigated the cases of (1) pure dipole, (2) pure quadrupole, and (3) dipole plus quadrupole fields. The quadrupole magnetic moment D is taken to be parallel to the dipole magnetic moment µ, and both are inclined relative to the spin axis of the star Ω at an angle Θ. Simulations have shown that in each case the structure of the funnel streams and associated hot spots on the surface of the star have specific features connected with the magnetic field configuration. In the pure dipole case matter accretes in two funnel streams which form two arch-like spots near the magnetic poles. In the case of a pure quadrupole field, most of the matter flows through the quadrupole “belt ” forming a ring-shaped hot region on the magnetic equator. In the case of a dipole plus quadrupole field, magnetic flux in the northern magnetic hemisphere is larger than that in the southern, and the quadrupole belt and the ring are displaced to the south. The stronger the quadrupole, the closer the ring is to the magnetic equator. At sufficiently large Θ, matter also flows to the south pole, forming a hot spot near the pole. The light curves have a variety of different features which makes it difficult to derive the magnetic field configuration from the light curves. There are specific features which are different in cases of dipole and quadrupole dominated magnetic field: (1) Angular momentum flow between the star and disc is more efficient in the case of the dipole field; (2) Hot spots are hotter and brighter in case of the dipole field because the matter accelerates over a longer distance compared with the flow in a quadrupole case. |
| author2 |
The Pennsylvania State University CiteSeerX Archives |
| format |
Text |
| author |
M. Long M. M. Romanova R. V. E. Lovelace |
| spellingShingle |
M. Long M. M. Romanova R. V. E. Lovelace Accretion to Stars with Non-dipole Magnetic Fields |
| author_facet |
M. Long M. M. Romanova R. V. E. Lovelace |
| author_sort |
M. Long |
| title |
Accretion to Stars with Non-dipole Magnetic Fields |
| title_short |
Accretion to Stars with Non-dipole Magnetic Fields |
| title_full |
Accretion to Stars with Non-dipole Magnetic Fields |
| title_fullStr |
Accretion to Stars with Non-dipole Magnetic Fields |
| title_full_unstemmed |
Accretion to Stars with Non-dipole Magnetic Fields |
| title_sort |
accretion to stars with non-dipole magnetic fields |
| publishDate |
2006 |
| url |
http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.255.1446 http://arxiv.org/pdf/astro-ph/0610487v1.pdf |
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South Pole |
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South Pole |
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South pole |
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South pole |
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http://arxiv.org/pdf/astro-ph/0610487v1.pdf |
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http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.255.1446 http://arxiv.org/pdf/astro-ph/0610487v1.pdf |
| op_rights |
Metadata may be used without restrictions as long as the oai identifier remains attached to it. |
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1766202751789826048 |