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3D features of modified photostructurable glass-ceramic with infrared femtosecond laser pulses
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The exclusive ability of laser radiation to be focused inside transparent materials makes lasers a unique tool to process inner parts of them unreachable with other techniques. Hence, laser direct-write can be used to create 3D structures inside bulk materials. Infrared femtosecond lasers are especially indicated for this purpose because a multiphoton process is usually required for absorption and high resolution can be attained. This work studies the modifications produced by 450 fs laser pulses at 1027 nm wavelength focused inside a photostructurable glass-ceramic (Foturan®) at different depths. Irradiated samples were submitted to standard thermal treatment and subsequent soaking in HF solution to form the buried microchannels and thus unveil the modified material. The voxel dimensions of modified material depend on the laser pulse energy and the depth at which the laser is focused. Spherical aberration and selffocusing phenomena are required to explain the observed results.
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FERNÁNDEZ PRADAS, Juan marcos, SERRANO VELASQUEZ, Damarys, BOSCH I PUIG, Salvador, MORENZA GIL, José luis, SERRA COROMINA, Pere. 3D features of modified photostructurable glass-ceramic with infrared femtosecond laser pulses. _Applied Surface Science_. 2010. Vol. 257, núm. 12, pàgs. 5219-5222. [consulta: 28 de gener de 2026]. ISSN: 0169-4332. [Disponible a: https://hdl.handle.net/2445/98101]