Abstract
The dynamics of photoevaporated molecular clouds is determined by the ablative pressure acting on the ionization front. An important step in the understanding of the ensuing motion is to develop the linear stability theory for an initially flat front. Despite the simplifications introduced by linearization, the problem remains quite complex and still draws a lot of attention. The complexity is related to the large number of effects that have to be included in the analysis: acceleration of the front, possible temporal variation of the intensity of the ionizing radiation, the tilt of the radiation flux with respect to the normal to the surface, and partial absorption of the incident radiation in the ablated material. In this paper, we describe a model where all these effects can be taken into account simultaneously, and a relatively simple and universal dispersion relation can be obtained. The proposed phenomenological model may prove to be a helpful tool in assessing the feasibility of the laboratory experiments directed towards scaled modeling of astrophysical phenomena.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Axford, W.I.: ApJ 140, 112 (1964)
Bertoldi, F.: ApJ 346, 735 (1989)
Bertoldi, F., McKee, C.F.: ApJ 354, 529 (1990)
Cohen M., Kuhi L.V.: ApJ. Suppl. 41, 743 (1979)
Frieman, E.: ApJ 120, 18 (1954)
Hester, J.J., Scowen, P.A., Sankrit, R., et al.: Astron. J. 111, 2349 (1996)
Iben, I., Jr., Talbot, R.J.: ApJ 144, 968 (1966)
Kahn, F.D.: Rev. Mod. Phys. 30, 1058 (1958)
Kane, J.O., Mizuta, A., Pound, M.W., et al.: Astrophys. Space Sci. 298, 261 (2005)
Lindl, J.D.: Phys. Plasmas 2, 3933 (1995)
Mizuta, A., Kane, J.O., Pound, M.W., et al.: ApJ 621, 803 (2005)
Mizuta, A., Takabe, H., Kane, J.O., et al.: Astrophys. Space Sci. 298, 197 (2005)
Pound, M.W., Reipurth, B., Bally, J.: Astron J. 125, 2108 (2003)
Pound, M.W.: ApJ 493, L113 (1998)
Remington, B.A., Weber, S.V., Haan, S.W., et al.: Phys. Fluids B5, 2589 (1993)
Ryutov, D.D., Kane, J.O., Pound, M.W., Remington, B.A.: Plasma Phys. Contr. Fusion 45, 769 (2003)
Spitzer, L.: ApJ 120, 1 (1954)
Sysoev, N.E.: Astr. Lett. 23, 409 (1997)
Takabe, H., Nagamoto, H., Sunahara, A., et al.: Plasma Phys. Contr. Fusion 41, A75 (1999)
Vandervoort, P.O.: ApJ 135, 212 (1962)
Williams, R.J.R:. MNRAS 331, 693 (2002)
Williams, R.J.R., Ward-Thompson, D., Whitworth, A.P.: MNRAS 327, 788 (2001)
Author information
Authors and Affiliations
Additional information
PACS Numbers: 98.38.Dq, 98.38.Hv, 52.38.Mf, 5257.FG, 52.72.+v
Rights and permissions
About this article
Cite this article
Ryutov, D.D., Kane, J.O., Mizuta, A. et al. Phenomenological Theory of the Photoevaporation Front Instability. Astrophys Space Sci 307, 173–177 (2007). https://doi.org/10.1007/s10509-006-9233-6
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10509-006-9233-6