Buried Rib SiO2 Multimode Interference Waveguides for Optofluidic Multiplexing.
Matthew A StottVahid GanjalizadehGopikrishnan MeenaJohnny McMurrayMaclain OlsenMarcos OrfilaHolger SchmidtAaron R HawkinsPublished in: IEEE photonics technology letters : a publication of the IEEE Laser and Electro-optics Society (2018)
Multimode interference (MMI) waveguides can be used to create wavelength-dependent spot patterns which enables simultaneous analyte detection on a single optofluidic chip, useful for disease diagnostics. The fidelity of such multi-spot patterns is important for high sensitivity and accurate target identification. Buried rib structures have been incorporated into these SiO2-based waveguides to improve environmental stability. Through experiments and simulation, this letter explores design parameters for a buried MMI rib waveguide based on anti-resonant reflecting optical waveguides in order to produce high-fidelity spot patterns. Optimal rib heights and widths are reported in the context of available microfabrication etch technology and performance for an optimized biosensor is shown.