posted on 2024-11-15, 06:11authored byA Casas Bedoya, P Domachuk, C Grillet, C Monat, E Magi, Enbang LiEnbang Li, Benjamin J Eggleton
We experimentally demonstrate reconfigurable photonic crystal waveguides created directly by infiltrating high refractive index (n≈2.01) liquids into selected air holes of a two-dimensional hexagonal periodic lattice in silicon. The resulting effective index contrast is large enough that a single row of infiltrated holes enables light propagation at near-infrared wavelengths. We include a detailed comparison between modeling and experimental results of single line defect waveguides and show how our infiltration procedure is reversible and repeatable. We achieve infiltration accuracy down to the single air hole level and demonstrate control on the volume of liquid infused into the holes by simply changing the infiltration velocity. This method is promising for achieving a wide range of targeted optical functionalities on a “blank” photonic crystal membrane that can be reconfigured on demand.
History
Citation
Casas Bedoya, A., Domachuk, P., Grillet, C., Monat, C., Magi, E., Li, E. & Eggleton, B. (2012). Reconfigurable photonic crystal waveguides created by selectrive liquid infiltration. Optics Express, 20 (10), 11046-11056.