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Femtosecond laser induced thermophoretic writing of waveguides in silicate glass

Manuel Macías‐Montero, Francisco Muñoz, Belén Sotillo, Jesús del Hoyo, Rocío Ariza, Paloma Fernández, Jan Siegel, J. Solı́s

2021Scientific Reports25 citationsDOIOpen Access PDF

Abstract

Abstract Here in, the fs-laser induced thermophoretic writing of microstructures in ad-hoc compositionally designed silicate glasses and their application as infrared optical waveguides is reported. The glass modification mechanism mimics the elemental thermal diffusion occurring in basaltic liquids at the Earth’s mantle, but in a much shorter time scale (10 8 times faster) and over a well-defined micrometric volume. The precise addition of BaO, Na 2 O and K 2 O to the silicate glass enables the creation of positive refractive index contrast upon fs-laser irradiation. The influence of the focal volume and the induced temperature gradient is thoroughly analyzed, leading to a variety of structures with refractive index contrasts as high as 2.5 × 10 –2 . Two independent methods, namely near field measurements and electronic polarizability analysis, confirm the magnitude of the refractive index on the modified regions. Additionally, the functionality of the microstructures as waveguides is further optimized by lowering their propagation losses, enabling their implementation in a wide range of photonic devices.

Topics & Concepts

FemtosecondSilicate glassLaserSilicateMaterials scienceOpticsPhysicsComposite materialAstronomyLaser Material Processing TechniquesCultural Heritage Materials AnalysisGlass properties and applications
Femtosecond laser induced thermophoretic writing of waveguides in silicate glass | Litcius