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Volume 137, 2008
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Linear and non-linear spectroscopy of microparticles: Basic principles, new techniques and promising applications

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Abstract

In the introduction a brief recollection is made of how one of us (RKC), accidentally, got into this field of linear and nonlinear spectroscopy of a dielectric micro-particle that can be treated as a micro-cavity or a micro-resonator. The basic principles of whispering gallery modes (WGMs) and their relationship with electromagnetic theory are presented. To simplify the mathematics, we only discuss an example from a 2-d case of light illumination perpendicular to the fiber axis. This 2-d example has relevance to semiconductor circular disk lasers, nonlinear optics in torroids, fibers and spheres at the tip of a fiber. The internal and near-field distribution of a WGM are graphically plotted to give the reader a chance to get a physical understanding of the spatial distribution as well as spectral distribution of WGMs. Several new techniques that enable the measurements of: (1) nanometer changes in the cladding diameter over a centimeter length of fiber; (2) some aspects of the morphology of micro-particles by elastic scattering; and (3) biochemical reactions at the interface of liquid media with a sphere at the end of a fiber. A few interesting nonlinear optical experimental results pertaining to stimulated Raman scattering (SRS) are touched upon. We present some preliminary results for promising applications in the area of bioaerosols. These include ambient aerosol characterization and identification with elastic scattering, fluorescence spectroscopy, and other optical and/or biochemical identifiers.

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Publication details

The article was received on 09 Jul 2007, accepted on 26 Jul 2007 and first published on 28 Sep 2007


Article type: Paper
DOI: 10.1039/B710441N
Citation: Faraday Discuss., 2008,137, 9-36
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    Linear and non-linear spectroscopy of microparticles: Basic principles, new techniques and promising applications

    R. K. Chang and Y. Pan, Faraday Discuss., 2008, 137, 9
    DOI: 10.1039/B710441N

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