Circular Depressed Cladding Waveguides in Mechanically Robust, Biocompatible nc-YSZ Transparent Ceramics by fs Laser Pulses

Cecilia Guerra-Olvera; Gabriel R. Castillo; Elias H. Penilla; Gottlieb Uahengo; Javier E. Garay; Santiago Camacho-Lopez

Journal of Lightwave Technology
Vol. 37,
Issue 13,
pp. 3119-3126
(2019)

Circular Depressed Cladding Waveguides in Mechanically Robust, Biocompatible nc-YSZ Transparent Ceramics by fs Laser Pulses

Cecilia Guerra-Olvera, Gabriel R. Castillo, Elias H. Penilla, Gottlieb Uahengo, Javier E. Garay, and Santiago Camacho-Lopez

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Cecilia Guerra-Olvera, Gabriel R. Castillo, Elias H. Penilla, Gottlieb Uahengo, Javier E. Garay, and Santiago Camacho-Lopez, "Circular Depressed Cladding Waveguides in Mechanically Robust, Biocompatible nc-YSZ Transparent Ceramics by fs Laser Pulses," J. Lightwave Technol. 37, 3119-3126 (2019)

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Abstract

We report on the fabrication of depressed cladding waveguides inscribed by direct femtosecond laser pulses irradiation in transparent nc-yttria stabilized zirconia (YSZ) polycrystalline ceramics. The waveguides consisted of two different circular structures with diameters of 30 and 100 $\mu \text{m}$ , and different lengths. Optical characterization at 633 $\text{}$ and 1568 nm was performed. The obtained modal profiles show dependence on the structure and size of the waveguides. We estimate a laser-induced refractive index contrast of nearly 10 $^{-2}$ , larger than can be explained by induced residual stresses alone. We conjecture that laser interactions lead to localized physical damage, i.e., microvoids cracks and possibly a decreased degree of crystallinity in the laser processed zones, which is supported by Raman measurements. Our results suggest a promising potential use of nc-YSZ in photonic bio-applications.

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Journal of Lightwave Technology