Heating of solid targets with laser pulses
- 1 April 1975
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 46 (4), 1585-1593
- https://doi.org/10.1063/1.321760
Abstract
Analytical and numerical solutions to the heat−conduction equation are obtained appropriate to the heating of absorbing media with pulsed lasers. The spatial and temporal form of the temperature is determined using several different models of the laser irradiance. Both surface and volume generation of heat are discussed and the results obtained using each model are compared with each other and with previously known results. It is found that if the depth of thermal diffusion for the laser pulse duration is large compared to the optical attenuation depth, the surface and volume generation models give nearly identical results. However, if the thermal diffusion depth for the laser pulse duration is comparable to or less than the optical attenuation depth, the surface generation model can give significantly different results compared to the volume generation model. Specific numerical results are given for a tungsten target irradiated by pulses of different temporal durations and the implications of the results are discussed with respect to the heating of metals by picosecond laser pulses.Keywords
This publication has 2 references indexed in Scilit:
- Improved Damage Thresholds for Metal MirrorsApplied Optics, 1974
- Picosecond laser pulsesProceedings of the IEEE, 1969