Add to ORKGWe present optical sensors based on slotted multimode interference waveguides. The sensor can be tuned to highest sensitivity in the refractive index ranges necessary to detect protein-based molecules or other water-soluble chemical or biological materials. The material of choice is low-loss silicon oxynitride (SiON) which is highly stable to the reactivity with biological agents and processing chemicals. Sensors made with this technology are suited to high volume manufacturing. Copyright © 2009 M. Mayeh et al
Abstract We propose a new kind of microring resonators (MRR) based on 4 × 4 multimode interference (...
During the last decade, polymer-based integrated optics has shown promising development for mass pro...
Technology and performances of silicon oxynitride waveguides for optomechanical sensors fabricated b...
We present optical sensors based on slotted multimode interference waveguides. The sensor can be tun...
The performance of three novel integrated optical sensing structures is explored theoretically. The ...
A fully integrated optical chem/bio sensor complete with integrated source, chemically sensitive wav...
In this article, we designed and studied silicon oxynitride (SiON) microring-based photonic structur...
in pressInternational audienceWe present a novel highly sensitive biochemical sensor based on a Brag...
Recent improvements in silicon photonics have led to high quality factor planar resonant cavities th...
Here we designed, fabricated and tested a novel optical sensor for bio/chemical applications based o...
A novel fiber based MMI optical sensor for bio/chemical applications is demonstrated. The operating ...
The field of chemical and biosensors based on waveguide technology is rapidly growing, with new deve...
n this paper, we report on the design, fabrication, and characterization of a photonic circuit for b...
To enable wide spread dissemination of sensors in cost-critical applications and resource poor setti...
An innovative integrated optical biosensing platform with an extremely high sensitivity is presented...
Abstract We propose a new kind of microring resonators (MRR) based on 4 × 4 multimode interference (...
During the last decade, polymer-based integrated optics has shown promising development for mass pro...
Technology and performances of silicon oxynitride waveguides for optomechanical sensors fabricated b...
We present optical sensors based on slotted multimode interference waveguides. The sensor can be tun...
The performance of three novel integrated optical sensing structures is explored theoretically. The ...
A fully integrated optical chem/bio sensor complete with integrated source, chemically sensitive wav...
In this article, we designed and studied silicon oxynitride (SiON) microring-based photonic structur...
in pressInternational audienceWe present a novel highly sensitive biochemical sensor based on a Brag...
Recent improvements in silicon photonics have led to high quality factor planar resonant cavities th...
Here we designed, fabricated and tested a novel optical sensor for bio/chemical applications based o...
A novel fiber based MMI optical sensor for bio/chemical applications is demonstrated. The operating ...
The field of chemical and biosensors based on waveguide technology is rapidly growing, with new deve...
n this paper, we report on the design, fabrication, and characterization of a photonic circuit for b...
To enable wide spread dissemination of sensors in cost-critical applications and resource poor setti...
An innovative integrated optical biosensing platform with an extremely high sensitivity is presented...
Abstract We propose a new kind of microring resonators (MRR) based on 4 × 4 multimode interference (...
During the last decade, polymer-based integrated optics has shown promising development for mass pro...
Technology and performances of silicon oxynitride waveguides for optomechanical sensors fabricated b...