Photonics Research, Volume. 8, Issue 2, 110(2020)
Third-order nonlinear optical susceptibility of crystalline oxide yttria-stabilized zirconia
Fig. 1. Variation of the third-order susceptibility tensorial components (
Fig. 2. (a) Symmetry nonequivalent local crystal structures of YSZ 33% in
Fig. 3. (a) Unit cell of YSZ 7% considered in this study. (b) Evolution of
Fig. 4. (a) Schematic view of a YSZ-based rib waveguide, designed and fabricated for single-mode quasi-TE propagation in the
Fig. 5. (a)
Fig. 6. Waveguides facets obtained with the two-step dicing procedure, including classical dicing technique and focus ion-beam (FIB) etching. (a) Top view of the sample edges with optical microscopy and (b) cross-section observation of a waveguide facet by SEM. Whereas the first classical technique allows to mechanically dice the whole sample, the FIB technique etches a small area, here the extremities of the waveguides, leaving highly transmissive facets.
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Guillaume Marcaud, Samuel Serna, Karamanis Panaghiotis, Carlos Alonso-Ramos, Xavier Le Roux, Mathias Berciano, Thomas Maroutian, Guillaume Agnus, Pascal Aubert, Arnaud Jollivet, Alicia Ruiz-Caridad, Ludovic Largeau, Nathalie Isac, Eric Cassan, Sylvia Matzen, Nicolas Dubreuil, Michel Rérat, Philippe Lecoeur, Laurent Vivien, "Third-order nonlinear optical susceptibility of crystalline oxide yttria-stabilized zirconia," Photonics Res. 8, 110 (2020)
Category: Optical and Photonic Materials
Received: Aug. 30, 2019
Accepted: Nov. 9, 2019
Published Online: Jan. 7, 2020
The Author Email: Guillaume Marcaud (guillaume.marcaud@c2n.upsaclay.fr)