Title :
Enhanced isotropic etching of quartz with femtosecond laser pre-processing
Author :
Hosking, Peter A G ; Rhode, Charles A. ; Simpson, M. Cather
Author_Institution :
Photon Factory, Univ. of Auckland, Auckland, New Zealand
fDate :
Aug. 28 2011-Sept. 1 2011
Abstract :
A laser machining system has been constructed to achieve nanometre precision in devices as large as a few millimetres. The approach exploits a two-step process in which sub-ablation threshold pulses first alter the structure of the transparent material (quartz, glass) to render them more susceptible to a second, chemical etching step. A high-numerical aperature objective lens (0.68) is used to focus the output of a femtosecond oscillator (800 nm, 100 fs pulses, 96 MHz, 450 mW average power; Clark-MXR NJA-5) to a beamwaist of 0.38 μm at the machining surface. High-precision stages translate the substrate relative to the beam. Enhanced selective etching with hydrofluoric acid will allow rapid, repeatable features to be constructed in a variety of substrates.
Keywords :
high-speed optical techniques; laser ablation; laser beam machining; Clark-MXR NJA-5; chemical etching; femtosecond laser pre-processing; femtosecond oscillator; frequency 96 MHz; high-numerical aperature objective lens; hydrofluoric acid; laser machining system; machining surface; power 450 mW; quartz isotropic etching; selective etching; sub-ablation threshold pulses; time 100 fs; transparent material; wavelength 800 nm; Chemicals; Etching; Laser ablation; Laser beams; Machining; Materials; Waveguide lasers;
Conference_Titel :
Quantum Electronics Conference & Lasers and Electro-Optics (CLEO/IQEC/PACIFIC RIM), 2011
Conference_Location :
Sydney, NSW
Print_ISBN :
978-1-4577-1939-4
DOI :
10.1109/IQEC-CLEO.2011.6194092
