Nanosecond pulsed laser ablation of silicon in liquids |
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Authors: | R Karimzadeh J Zamir Anvari and N Mansour |
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Institution: | (1) Department of Physics, Shahid Beheshti University, Evin, Tehran, 19839, Iran |
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Abstract: | Laser fluence and laser shot number are important parameters for pulse laser based micromachining of silicon in liquids. This
paper presents laser-induced ablation of silicon in liquids of the dimethyl sulfoxide (DMSO) and the water at different applied
laser fluence levels and laser shot numbers. The experimental results are conducted using 15 ns pulsed laser irradiation at
532 nm. The silicon surface morphology of the irradiated spots has an appearance as one can see in porous formation. The surface
morphology exhibits a large number of cavities which indicates as bubble nucleation sites. The observed surface morphology
shows that the explosive melt expulsion could be a dominant process for the laser ablation of silicon in liquids using nanosecond
pulsed laser irradiation at 532 nm. Silicon surface’s ablated diameter growth was measured at different applied laser fluences
and shot numbers in both liquid interfaces. A theoretical analysis suggested investigating silicon surface etching in liquid
by intense multiple nanosecond laser pulses. It has been assumed that the nanosecond pulsed laser-induced silicon surface
modification is due to the process of explosive melt expulsion under the action of the confined plasma-induced pressure or
shock wave trapped between the silicon target and the overlying liquid. This analysis allows us to determine the effective
lateral interaction zone of ablated solid target related to nanosecond pulsed laser illumination. The theoretical analysis
is found in excellent agreement with the experimental measurements of silicon ablated diameter growth in the DMSO and the
water interfaces. Multiple-shot laser ablation threshold of silicon is determined. Pulsed energy accumulation model is used
to obtain the single-shot ablation threshold of silicon. The smaller ablation threshold value is found in the DMSO, and the
incubation effect is also found to be absent. |
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Keywords: | PACS" target="_blank">PACS 52 38 Mf 61 82 Fk 81 65 Cf 52 38 -r 62 50 Ef |
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