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efficient material processing techniques that combine high optical quality with utmost precision through direct laser writing. This capability, responding to challenges in nanofabrication, could unlock new
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of a water absorption band. Consequently, 3 µm lasers are highly relevant for applications in spectroscopy, greenhouse gas and pollutant detection, industrial process monitoring (hydrocarbons, combustion
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. This convergence is particularly visible in Saclay's area where a large community of computer scientists is structured around the PIC code Smilei, and where several ultra-high intensity laser facilities
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on Smart Fibre-Optic High-Power Photonics (HiPPo). The HiPPo programme (https://www.hippo-laser.co.uk/ ) is focused on understanding how to control the properties of fibre lasers, to go beyond the “fixed
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on Smart Fibre-Optic High-Power Photonics (HiPPo). The HiPPo programme (https://www.hippo-laser.co.uk/ ) is focused on understanding how to control the properties of fibre lasers, to go beyond the “fixed
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pulses. He or she shall contribute to activities such as - Experimental analysis and/or modeling of the interactions and material responses - performance optimization of laser writing processes (Process
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101057457), funded under HORIZON-RIA - HORIZON Research and Innovation Actions, is seeking to recruit one (1) PhD candidate. Job Description Laser processing of materials using fs pulses Where to apply
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Centre de Mise en Forme des Matériaux (CEMEF) | Sophia Antipolis, Provence Alpes Cote d Azur | France | 4 days ago
context of the project: The Laser Powder Bed Fusion (LPBF) process is currently at the peak of its industrial development, thanks to its ability to produce complex geometries. However, a number of known
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continuously improving systems and processes to ensure compliance with RMIT’s Global Safety Model, relevant OHS legislation, regulations, standards, and safe work practices relating to biological, laser, and
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applications as soon as possible. Required Field(s): · Advanced fabrication process of emitting devices, mainly laser diodes . · Materials: wide-band gap nanostructure devices (mainly oxides, III