Hostname: page-component-cd9895bd7-dk4vv Total loading time: 0 Render date: 2024-12-23T11:53:02.353Z Has data issue: false hasContentIssue false

Radiative-transfer modelling of funnel flows

Published online by Cambridge University Press:  01 May 2007

Tim J. Harries*
Affiliation:
School of Physics, University of Exeter, Stocker Road, Exeter, EX4 4QL, UK email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Emission line profiles from pre-main-sequence objects accreting via magnetically-controlled funnel flows encode information on the geometry and kinematics of the material on stellar radius scales. In order to extract this information it is necessary to perform radiative-transfer modelling of the gas to produce synthetic line profiles. In this review I discuss the physics that needs to be included in such models, and the numerical methods and assumptions that are used to render the problem tractable. I review the progress made in the field over the last decade, and summarize the main successes and failures of the modelling work.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2007

References

Alencar, S.H.P., Basri, G., Hartmann, L., & Calvet, N. 2005, A&A 440, 595Google Scholar
Bastian, U., Bertout, C., Stenholm, L., & Wehrse, R. 1980, A&A 86, 105Google Scholar
Blandford, R.D., & Payne, D.G. 1982, MNRAS 199, 883Google Scholar
Gatti, T., Testi, L., Natta, A., Randich, S., & Muzerolle, J. 2006, A&A 460, 547Google Scholar
Gregory, S.G., Wood, K., & Jardine, M. 2007, astro-ph-07042958Google Scholar
Gregory, S.G., Jardine, M., Collier Cameron, A., & Donati, J.-F. 2006, MNRAS 373, 827Google Scholar
Hartmann, L. 1982, ApJS 48, 109Google Scholar
Hartmann, L., Hewett, R., & Calvet, N. 1994, ApJ 426, 669CrossRefGoogle Scholar
Kwan, J., Edwards, S., & Fischer, W. 2007, ApJ 657, 897CrossRefGoogle Scholar
Kurosawa, R., Harries, T.J., & Symington, N.H. 2005, MNRAS 358, 671CrossRefGoogle Scholar
Kurosawa, R., Harries, T.J., & Symington, N.H. 2006, MNRAS 370, 580CrossRefGoogle Scholar
Martin, S. 1996, ApJ 470, 537Google Scholar
Mohanty, S., Jayawardhana, R., & Basri, G., 2005, ApJ 626, 498CrossRefGoogle Scholar
Muzerolle, J., Calvet, N., & Hartmann, L. 1998, ApJ 492, 743Google Scholar
Muzerolle, J., Calvet, N., & Hartmann, L. 2001, ApJ 550, 944CrossRefGoogle Scholar
Muzerolle, J., D'Alessio, P., Calvet, N., Hartmann, L. 2004, ApJ 617, 406CrossRefGoogle Scholar
Muzerolle, J., Luhman, K.L., Briceño, C., Hartmann, L., & Calvet, N. 2005, ApJ 625, 906Google Scholar
Natta, A., Testi, L., & Randich, S. 2006, A&A 452, 245Google Scholar
Reipurth, B., Pedrosa, A., & Lago, M.T.V.T. 1996, A&AS 120, 229Google Scholar
Scholz, S., Jayawardhana, R., Wood, K., Meeus, G., Stelzer, B., Walker, C., O'Sullivan, M. 2007, ApJ 660, 1517Google Scholar
Symington, N.H., Harries, T.J., & Kurosawa, R. 2005, MNRAS 356, 1489Google Scholar