Title :
Surface desensitization of polarimetric waveguide interferometers
Author :
Worth, Colin ; Goldberg, Bennett B. ; Ruane, Michael ; Ünlü, M. Selim
Author_Institution :
Dept. of Phys., Boston Univ., MA, USA
Abstract :
Nonspecific surface binding of small protein molecules presents a major obstacle to surface biosensing techniques attempting to detect very low concentrations (< 1 pg/mm2) of large biological objects such as cells and bacteria. A new method for selective desensitization of a polarimetric waveguide interferometer eliminates the background noise from nonspecific surface binding. We demonstrate the ability to tune the phase sensitivity of a waveguide interferometer as a function of the distance of the biological or chemical analyte from the waveguide surface. This makes possible a sensor that has zero sensitivity at a particular distance where nonspecific surface binding occurs without significantly reducing the sensitivity to target larger biological species
Keywords :
biosensors; integrated optics; light interferometers; optical sensors; optical waveguides; polarimetry; background noise elimination; bacteria; cells; differential phase shift; evanescent wave biosensing; interferometric sensitivity; multiple dielectric layers; nonspecific surface binding; orthogonal waveguide modes; particle size; phase sensitivity; polarimetric waveguide interferometers; refractive index changes; saturated differential sensitivity; selective desensitization; slab waveguide; small protein molecules; surface biosensing; surface desensitization; very low concentrations; Background noise; Biochemical analysis; Biosensors; Cells (biology); Chemical analysis; Interferometers; Microorganisms; Object detection; Proteins; Surface waves;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.983287
