Formation of stars and planets: the role of magnetic fields
Article
Salmeron, R.. 2011. "Formation of stars and planets: the role of magnetic fields." Astrophysics and Space Science: an international journal of astronomy, astrophysics and space science. 335 (2), pp. 353-371. https://doi.org/10.1007/s10509-011-0783-x
| Article Title | Formation of stars and planets: the role of magnetic fields |
|---|---|
| ERA Journal ID | 1059 |
| Article Category | Article |
| Authors | |
| Author | Salmeron, R. |
| Journal Title | Astrophysics and Space Science: an international journal of astronomy, astrophysics and space science |
| Journal Citation | 335 (2), pp. 353-371 |
| Number of Pages | 19 |
| Year | 2011 |
| Publisher | Springer |
| Place of Publication | Netherlands |
| ISSN | 0004-640X |
| 1572-946X | |
| Digital Object Identifier (DOI) | https://doi.org/10.1007/s10509-011-0783-x |
| Web Address (URL) | https://link.springer.com/article/10.1007/s10509-011-0783-x |
| Abstract | Star formation is thought to be triggered by gravitational collapse of the dense cores of molecular clouds. Angular momentum conservation during the collapse results in the progressive increase of the centrifugal force, which eventually halts the inflow of material and leads to the development of a central mass surrounded by a disc. In the presence of an angular momentum transport mechanism, mass accretion onto the central object proceeds through this disc, and it is believed that this is how stars typically gain most of their mass. However, the mechanisms responsible for this transport of angular momentum are not well understood. Although the gravitational field of a companion star or even gravitational instabilities (particularly in massive discs) may play a role, the most general mechanisms are turbulence viscosity driven by the magnetorotational instability (MRI), and outflows accelerated centrifugally from the surfaces of the disc. Both processes are powered by the action of magnetic fields and are, in turn, likely to strongly affect the structure, dynamics, evolutionary path and planet-forming capabilities of their host discs. The weak ionisation of protostellar discs, however, may prevent the magnetic field from effectively coupling to the gas and shear and driving these processes. Here I examine the viability and properties of these magnetically-driven processes in protostellar discs. The results indicate that, despite the weak ionisation, the magnetic field is able to couple to the gas and shear for fluid conditions thought to be satisfied over a wide range of radii in these discs. |
| Keywords | Accretion; Accretion discs; ISM: jets and outflows; MHD; Stars: formation |
| ANZSRC Field of Research 2020 | 510109. Stellar astronomy and planetary systems |
| Public Notes | Files associated with this item cannot be displayed due to copyright restrictions. |
| Byline Affiliations | Australian National University |
| Institution of Origin | University of Southern Queensland |
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