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Mass accretion on to T Tauri stars

2006; Oxford University Press; Volume: 371; Issue: 2 Linguagem: Inglês

10.1111/j.1365-2966.2006.10734.x

1365-2966

S. G. Gregory, M. Jardine, I. C. Simpson, J.‐F. Donati,

Stellar, planetary, and galactic studies

It is now accepted that accretion on to classical T Tauri stars is controlled by the stellar magnetosphere, yet to date most accretion models have assumed that their magnetic fields are dipolar. By considering a simple steady state accretion model with both dipolar and complex magnetic fields, we find a correlation between mass accretion rate and stellar mass of the form ⁠, with our results consistent within observed scatter. For any particular stellar mass there can be several orders of magnitude difference in the mass accretion rate, with accretion filling factors of a few per cent. We demonstrate that the field geometry has a significant effect in controlling the location and distribution of hotspots, formed on the stellar surface from the high velocity impact of accreting material. We find that hotspots are often at mid to low latitudes, in contrast to what is expected for accretion to dipolar fields, and that particularly for higher mass stars, the accretion flow is predominantly carried by open field lines.