Title :
High-Quality Flat-Top Micromachining of Silica by a CW CO2 Laser
Author :
Özcan, Lütfü Çelebi ; Tréanton, Vincent ; Kashyap, Raman ; Martinu, Ludvik
Author_Institution :
PolyGrames Res. Center, Ecole Polytech. de Montreal, Que.
fDate :
4/1/2007 12:00:00 AM
Abstract :
This letter demonstrates a simple and fast technique that dramatically improves the micromachined surface quality of silica substrates processed by a continuous-wave CO2 laser. When sufficient laser power is directed at the surface of a sample, its temperature increases beyond the boiling point. Melted material is ejected and a groove is created. Some of the ablated material redeposits on each side of the groove, altering the surface quality of the substrate. To circumvent this problem, we deposit a polymer overlay as a sacrificial film which protects the surface during the ablation process, resulting in a flat surface on either side of the groove at very high writing speeds. The grooves can be used as an aid to passive alignment for an optical fiber, as diffractive optical elements or to create high-quality microfluidic chips
Keywords :
laser ablation; laser beam machining; melting; micromachining; polymer films; silicon compounds; surface treatment; CO2; CO2 laser; SiO2; ablated material redeposition; ablation process; boiling point; continuous-wave laser; diffractive optical elements; flat-top micromachining; grooves; melted material; microfluidic chips; optical fiber; passive alignment; polymer overlay; sacrificial film; silica micromachining; silica substrates; surface quality; Micromachining; Optical films; Optical materials; Polymer films; Power lasers; Protection; Silicon compounds; Substrates; Surface emitting lasers; Temperature; CO$_{2}$ laser; fabrication technique; microfluidic; micromachining; silica; surface engineering;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.893044
