Computational fluid-dynamic model of laser-induced breakdown in air |
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Authors: | Dors Ivan G Parigger Christian G |
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Affiliation: | Space Science Center, University of New Hampshire, 39 College Road, Durham, NH 03824, USA. |
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Abstract: | Temperature and pressure profiles are computed by the use of a two-dimensional, axially symmetric, time-accurate computational fluid-dynamic model for nominal 10-ns optical breakdown laser pulses. The computational model includes a kinetics mechanism that implements plasma equilibrium kinetics in ionized regions and nonequilibrium, multistep, finite-rate reactions in nonionized regions. Fluid-physics phenomena following laser-induced breakdown are recorded with high-speed shadowgraph techniques. The predicted fluid phenomena are shown by direct comparison with experimental records to agree with the flow patterns that are characteristic of laser spark decay. |
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