Mr. Samuel Pouliot Profile

Samuel Pouliot

at Univ Laval

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Proceedings Article | 4 March 2022 Presentation + Paper

Laser writing of 3D waveguides up to long-wave infrared: sensing and high refractive index contrast challenges

Jerome Lapointe, Albert Dupont, Samuel Pouliot, Théo Guérineau, Jonathan Lafreniere-Greig, Younes Messaddeq, Réal Vallée

Proceedings Volume 11988, 119880C (2022) https://doi.org/10.1117/12.2611532

KEYWORDS: Waveguides, Refractive index, Glasses, Crystals, Femtosecond phenomena, Wave propagation, Mid-IR, Signal attenuation, Laser applications, Sensors

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Since the demonstration of Davis et al. in 1996, femtosecond laser direct inscription emerged as a powerful tool for the fabrication of three-dimensional photonic circuits. Even today, the performance of calculations based on the volume density of components would greatly benefit from the 3D capability of fs-laser inscription. Although several advanced 3D devices such as photonic quantum circuits and lab-on-a-chip were successfully fabricated, compactness is still limited by the minimum achievable waveguide bend radius. Another growing interest is the laser inscription in materials with transmission up to the mid- and long-wave infrared for applications such as micro-organism detection, environmental monitoring, medical diagnostic and optical communication in the second atmospheric window at 8–12 microns. In this spectral band, materials that can be drawn into fiber optics, such as fluoride and chalcogenide glasses, are expensive and fragile. On the other hand, laser inscription allows the fabrication of waveguides in virtually any material, even crystals, enabling new IR applications, especially for harsh environmental conditions. In this communication, we present our recent progress on these two topics. First, we demonstrate waveguide bend radii down to <400 µm, which is an important improvement over the minimum 10-mm radius reported previously. The high refractive index change allowing such tight bends is attributed to a femtosecond laser induced band gap shift (FLIBGS) in the material. We also report low loss depressed-cladding waveguide (DCW) in crystals for IR applications. We particularly demonstrate the challenging inscription of a large DCW for single-mode operation at 10.6 µm with propagation loss of <0.63 dB/cm. We also describe a technique using a cover slide with optical contact to inscribe waveguides at the bulk surface for refractometric sensing applications.

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