R. Hazem,1 Y. Petit,1 L. Canioni,1 Ludovic Belhomme,2,3 Manuel Gaudon,3 Serge Ravaine2
1Institute of Chemistry of the Condensed Matter of Bordeaux, Univ. of Bordeaux (France) 2Ctr. de Recherche Paul-Pascal (France) 3Institut de Chimie de la Matière Condensée de Bordeaux (France)
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The 3D fabrication of micro-optics and photonic architectures using organic materials are limited due to poor thermal and chemical stability. We are working on high-resolution 3D printing of photonic components using commercial ORMOCOMP® hybrid polymers. This solvent-free, thermally stable resin allows to limit the shrinkage between 4 and 6%. In this work, we optimize the femtosecond Direct Laser Writing process and we use 4D-printing by modulating the laser intensity during the process. In this presentation we will investigate the relationship between linear optical properties and 4D printing parameters in order to print a core-clad waveguide.
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R. Hazem, Y. Petit, L. Canioni, Ludovic Belhomme, Manuel Gaudon, Serge Ravaine, "4D printing of micro-optics and photonic components using hybrid polymers and nanomaterials with minimum shrinkage," Proc. SPIE PC12876, Laser 3D Manufacturing XI, PC1287602 (13 March 2024); https://doi.org/10.1117/12.3002702