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Photonic jet breakthrough for direct laser microetching using nanosecond near-infrared laser

JudulPhotonic jet breakthrough for direct laser microetching using nanosecond near-infrared laser
PenulisAndri Abdurrochman, Sylvain Lecler, Frederic Mermet, Bernard Y. Tumbelaka, Bruno Serio, Joel Fontaine
PenerbitUniversitas Padjadjaran, APPLIED OPTICS Vol. 53, No. 31 1 November 2014, https://dx.doi.org/10.1364/A0.53.007202
BahasaBahasa Inggris
Hak CiptaUniversitas Padjadjaran, APPLIED OPTICS Vol. 53, No. 31 1 November 2014, https://dx.doi.org/10.1364/A0.53.007202
Kata KunciMicrostructure fabrication

Nanosecond near-IR lasers are commonly used for industrial laser processing. In this paper, we demon¬strate that a 70 pm diameter beam generated from a 5 W, 28 ns, near-1R (1064 nm) Nd:YAG laser can etch a silicon wafer with a lateral feature size as small as 1.3 pm. Surprisingly with this laser, micro-etching can also be achieved on glass, despite the low absorption of this material at this wavelength. This breakthrough is carried out in ambient air by rising glass microspheres with diameters between 4 and 40 inn that generate a concentrated beam at their vicinity, a phenomenon referred to as a photonic jet. The roles of parameters such as laser fluence, pulse number, microsphere diameter, and distance between the microsphere and the sample are discussed. A good correlation has been observed between the computed photonic jet intensity distribution and the etched marks’ geometry

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