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20 November 2019 High-aspect ratio damage and modification in transparent materials by tailored focusing of femtosecond lasers
Brian K. Canfield, Alexander Terekhov, Lino Costa, Lloyd M. Davis
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Proceedings Volume 11173, Laser-induced Damage in Optical Materials 2019; 111730D (2019) https://doi.org/10.1117/12.2536450
Event: SPIE Laser Damage, 2019, Broomfield (Boulder area), Colorado, United States
Abstract
We discuss studies of laser damage inside various transparent materials (glasses, polymers, sapphire, diamond) caused by femtosecond lasers at 515, 800, and 1030 nm, with nJ to mJ pulse energies, single-shot to 2 MHz repetition rates, single and 10 ns burst-mode pulses, chirped pulses, and linear, circular, and radial beam polarizations. Experiments have created high-aspect damage features and voids using aberration-controlled focusing, axicon-formed Bessel beams with <1 μm diameter central lobes extending hundreds of microns through the materials, and tightly focused lines (~1 μm × <100 μm). Mechanisms include self-focusing, filamentation, and material expansion/compaction and expulsion.
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Brian K. Canfield, Alexander Terekhov, Lino Costa, and Lloyd M. Davis "High-aspect ratio damage and modification in transparent materials by tailored focusing of femtosecond lasers", Proc. SPIE 11173, Laser-induced Damage in Optical Materials 2019, 111730D (20 November 2019); https://doi.org/10.1117/12.2536450
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KEYWORDS
Diamond
Glasses
Diamond machining
Collimation
Femtosecond phenomena
Pulsed laser operation
Sapphire
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