Title :
Optical sensors based on active microcavities
Author :
Yang, Jun ; Guo, L. Jay
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
We propose an active optical sensor based on a microcavity with gain. Greatly improved sensitivity can be achieved in active microcavities as compared with passive high-Q microcavities. We show that an active sensor using a gain-doped microsphere can provide 104-fold narrower resonance linewidth than does a passive microcavity in the transmission spectrum. Such highly sensitive microcavity optical sensors can be used to detect low concentrations of chemicals or biomolecules in their surroundings. Our analysis shows that this type of compact active microcavity is sensitive to an effective refractive index change of the order of 10-9.
Keywords :
Q-factor; biological techniques; chemical sensors; micro-optics; microcavities; molecular biophysics; optical sensors; refractive index; spectral line narrowing; active microcavities; active sensor; biomolecule detection; chemical concentration detection; gain-doped microsphere; microcavity optical sensors; narrow resonance linewidth; optical sensors; refractive index change; transmission spectrum; Biomedical optical imaging; Biosensors; Chemical and biological sensors; Chemical sensors; Microcavities; Optical sensors; Optical surface waves; Optical waveguides; Refractive index; Resonance; Active sensor; biosensor; microcavity; microdisk; microring; microsphere; whispering-gallery mode (WGM);
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2005.862953
