WebMay 30, 2024 · To meet the technological gap, we developed a 32-analyte integrated optical fluorescence biosensor (IOFB) by designing the TriPleX™ waveguides on a glass (e.g. FS) substrate, to allow for simultaneous detection from the bottom side, and fluid manipulation from the top as shown in Fig. 1.The standard silicon microelectronic technology was … WebTriPleX TM waveguides shows small waveguide losses, and are fully transparent for wavelengths from 400 nm up to 2 µm and beyond, providing maximum flexibility from an …
TriPleX waveguide platform: low-loss technology over a wide …
WebThe TriPleX platform provides a suite of waveguide geometries (box, double stripe, symmetric single stripe, and asymmetric double stripe) that can be combined to design complex functional circuits, but more important are manufactured in a single monolithic process flow to create a compact photonic integrated circuit. WebGet directions, maps, and traffic for Renfrew. Check flight prices and hotel availability for your visit. rogers 5 stages of adoption
TriPleX: a new concept in optical waveguiding - ResearchGate
WebFeb 12, 2009 · A TriPleXTM waveguide is basically formed by a -preferably rectangular- silicon nitride (Si 3 N 4) shell filled with and encapsulated by silicon dioxide (SiO 2). The … WebThe stress-optic actuator is created by a piezoelectric layer (lead zirconate titanate, PZT) on top of a Si 3 N 4-based TriPleX™ waveguide in our standard Asymmetric Double Stripe (ADS) cross section. The top cladding thickness in between the actuator and the waveguide is chosen to achieve minimal optical loss (≤0.01dB/cm). The electrodes ... WebTriPleXTMwaveguide concept •single mode •Operating range from 405 nm to 2350 nm •low loss LPCVD SiO 2 Low refractive index Layer quality is excellent Stress: Compressive Dn(TE-TM) = negative •reproducible •LPCVD based •Adjustable birefringence LPCVD Si 3 N 4 High refractive index Layer quality is excellent Stress: Tensile rogers 8 and 10 inch toms