Models of laser plasma ablation. Part 4. Steadystate theory: collisional absorption flow
- 1 February 1993
- journal article
- research article
- Published by Cambridge University Press (CUP) in Journal of Plasma Physics
- Vol. 49 (2) , 295-316
- https://doi.org/10.1017/s0022377800017001
Abstract
The clarification of models of laser ablation by plasma heating is examined using a general dimensional argument and introducing a set of universal parameters. The regime of laser-plasma interaction in which collisional absorption and thermal conduction dominate is examined for spherical systems. Detailed scaling relations are derived for uninhibited and flux-limited thermal conduction. The complete set of regimes for steady spherical flow are examined, and it is found that the most important flows are thin collisional and thick local absorption.Keywords
This publication has 12 references indexed in Scilit:
- Models of laser-plasma ablation. Part 3. Steady-state theory: deflagration flowJournal of Plasma Physics, 1988
- Models of laser-plasma ablation. Part 2. Steady-state theory: self-regulating flowJournal of Plasma Physics, 1986
- Thermal electron transport in direct-drive laser fusionCanadian Journal of Physics, 1986
- Models of laser-plasma ablationJournal of Plasma Physics, 1986
- Ion charge number and flux saturation effects in the corona of a laser-irradiated pelletPhysics of Fluids, 1983
- Elecron Energy Transport in Steep Temperature Gradients in Laser-Produced PlasmasPhysical Review Letters, 1981
- A model for laser driven ablative implosionsPhysics of Fluids, 1980
- Two dimensional steady flow structures in laser-solid target interactionPlasma Physics, 1974
- Steady-state motion of radiation-heated vapors of a material in the presence of lateral spreading flowJournal of Applied Mathematics and Mechanics, 1967
- Gasdynamic processes in heating of a substance by laser radiationJournal of Applied Mathematics and Mechanics, 1966