CO2 Laser Ablation Area Scaling And Redeposition On Flat Polyoxymethylene Targets
Abstract
One of the remaining unknown subjects of laser propulsion involves whether special benefits or challenges exist for applying laser ablation propulsion to targets with particularly large or small spot areas. This subject is of high importance for a wide range of topics ranging from laser removal of space debris to micropropulsion for laser propulsion vehicles. Analysis is complex since different ablation phenomena are dominant between atmosphere and vacuum conditions. Progress has also been impeded by the difficulty of setting control parameters (particularly fluence) constant while the spot area is adjusted. It is also usually difficult for one group to address small- and large-area effects using a single high-power laser system. Recent collaborative experiments on laser ablation area scaling at several institutions, using 100-J class and 10-J class CO2 lasers, have advanced the understanding of laser propulsion area scaling. The spot area-dependence of laser propulsion parameters has been investigated over an area range covering approximately 0.05-50 cm2 at low fluence of about 0.6 J/cm2. The experiments were conducted well below the threshold for plasma formation, and provide an estimate of the ablation threshold for CO2 laser ablation of POM.
- Publication:
-
International Symposium on High Power Laser Ablation 2010
- Pub Date:
- October 2010
- DOI:
- 10.1063/1.3507144
- Bibcode:
- 2010AIPC.1278..538S
- Keywords:
-
- laser ablation;
- computational fluid dynamics;
- optical microscopy;
- hydrodynamics;
- light absorption;
- 52.38.Mf;
- 31.15.at;
- 07.60.Pb;
- 52.57.Fg;
- 42.68.Ay;
- Laser ablation;
- Molecule transport characteristics;
- molecular dynamics;
- electronic structure of polymers;
- Conventional optical microscopes;
- Implosion symmetry and hydrodynamic instability;
- Propagation transmission attenuation and radiative transfer