Abstract
Using intense femtosecond laser (150 fs, 790 nm, 1 kpps), precise and high-speed laser ablation etching of hexagonal GaN is demonstrated. Etch rate above the ablation threshold is measured to be <5 nm/pulse. An etch rate per second of 25 μm/s is realized at a fluence of 2.2 J/cm 2. Although conventional long pulsed, tens of ns, KrF laser ablation of the GaN resulted in the formation of a Ga layer on the ablated surface due to laser-induced thermal decomposition process, the femtosecond laser etching is found to keep the ablated surface unchanged due to non-thermal ablation. Based on the XPS spectra observation the femtosecond laser ablated GaN surface is found to remain unchanged.
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