Lincoln Repository

Menu

Use of thin laminar liquid flows above ablation area for control of ejected material during excimer machining

Dowding, Colin and Lawrence, Jonathan (2008) Use of thin laminar liquid flows above ablation area for control of ejected material during excimer machining. In: ICALEO 2008, October 20-23 2008, Pechanga, CA, USA.

Documents
Use of thin laminar liquid flows above ablation area for control of ejected material during excimer machining
Final Published verision (I had to format it correctly myself for publication: the Laser Institute of America should have done no more fomratting in their published version)
  • Format: PDF
  • Repository staff only
  • Size: 795kB

Request a copy
[img] PDF
Use_of_thin_laminar_liquid_flows_above_ablation_area_for_control_of_ejected_material_during_excimer_machining.pdf - Whole Document
Restricted to Repository staff only
795kB
Item Type:Conference or Workshop contribution (Presentation)
Item Status:Live Archive

Abstract

To observe excimer laser machining through thin liquid films and the effects thereof on debris control, equipment was designed to contain a small control volume that can be supplied with a laminar thin film of DI water to flow over the workpiece at various flow rates. Using the same equipment, comparison with non-liquid ablation was possible. Reliable calculations of the debris size and density with respect to the distance from the centre of the shot, as well as the identification of modal trends in the dispersion of the debris were obtained from analysis of microscope images with graphical analysis software. The results suggest that debris ejection direction is dependent upon the beam incident angle with the workpiece and that dispersion distance is related to particle size, beam intensity and the material being machined. The results support the suggestion that ablated material is both decelerated and retained more efficiently within a liquid than in a gas.

Additional Information:To observe excimer laser machining through thin liquid films and the effects thereof on debris control, equipment was designed to contain a small control volume that can be supplied with a laminar thin film of DI water to flow over the workpiece at various flow rates. Using the same equipment, comparison with non-liquid ablation was possible. Reliable calculations of the debris size and density with respect to the distance from the centre of the shot, as well as the identification of modal trends in the dispersion of the debris were obtained from analysis of microscope images with graphical analysis software. The results suggest that debris ejection direction is dependent upon the beam incident angle with the workpiece and that dispersion distance is related to particle size, beam intensity and the material being machined. The results support the suggestion that ablated material is both decelerated and retained more efficiently within a liquid than in a gas.
Keywords:KrF excimer laser, Open Thin Film, Liquid Immersion, Ablation, Debris Control
Subjects:H Engineering > H680 Optoelectronic Engineering
F Physical Sciences > F361 Laser Physics
H Engineering > H700 Production and Manufacturing Engineering
H Engineering > H300 Mechanical Engineering
Divisions:College of Science > School of Engineering
ID Code:4025
Deposited On:20 Oct 2018 16:52

Repository Staff Only: item control page