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Paper: |
Theory of Outflows in Cataclysmic Variables |
Volume: |
330, The Astrophysics of Cataclysmic Variables and Related Objects |
Page: |
103 |
Authors: |
Proga, D. |
Abstract: |
We review the main results from line-driven (LD) models of winds from accretion disks in cataclysmic variables (CVs). We consider LD disk wind models in the hydrodynamic (HD) and magnetohydrodynamic (MHD) limits. We discuss the basic physical conditions needed for a disk wind to exist and the conditions for the wind to be steady or unsteady. We also discuss how the line-driven (LD) wind structures revealed in numerical simulations relate to observations. In particular, we present synthetic line profiles predicted by the LD wind models and compare them with observations. Our main conclusion is that, despite some problems, line-driving alone is the most plausible mechanism for driving the CV winds. This conclusion is related to two facts: 1) LD wind models are likely the best studied wind models, analytically and numerically, and 2) it is most likely that the predictive power of the LD wind models is much higher than of any other wind model so far. Preliminary results from LD-MHD wind models confirm that magnetic driving is likely an important element of the wind dynamics. However, magnetic driving does not seem to be necessary to produce a CV wind. The most important issues which need to be addressed by future dynamical models, regardless of driving mechanism, are the effects of the position-dependent photoionization and the dynamical effects in three dimensions. |
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