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Open WGM Dielectric Resonator Technique for Characterization of nL-Volume Liquids
By: Offenhausser, A.; Vitusevich, S.; Barannik, A.A.; Shaforost, E.N.;
2008 / IEEE / 978-2-87487-006-4
Description
This item was taken from the IEEE Conference ' Open WGM Dielectric Resonator Technique for Characterization of nL-Volume Liquids ' In this paper we develop a new approach for the fingerprint detection and analysis of biochemical (lossy) liquids of pico- to nanoliter volumes. We investigated dielectric resonators excited in so-called whispering-gallery-modes with local in homogeneities in the form of a liquid droplet. The droplet position is achieved to be independent on the azimuthal coordinate due to nearly-running wave excitation in the resonant structure by distributed coupling from dielectric image waveguides. The liquid droplet causes a small perturbation of the electromagnetic field distribution with a measurable change of the resonator Q-factor and resonant frequency.
Related Topics
Drops
Fingerprint Identification
Q-factor
Resonant Frequency
Open Wgm Dielectric Resonator
Nl-volume Liquids
Fingerprint Detection
Whispering-gallery-modes
Liquid Droplet
Droplet Position
Dielectric Image Waveguides
Resonator Q-factor
Dielectric Liquids
Fingerprint Recognition
Biochemical Analysis
Resonance
Electromagnetic Waveguides
Liquid Waveguides
Electromagnetic Fields
Dielectric Measurements
Frequency Measurement
Electromagnetic Measurements
Dielectric Waveguides
Dielectric Resonators
Biochemistry
Whispering Gallery Modes
Engineering
Biochemical Lossy Liquids
