Title :
Sized-fiber reflectometry for measuring local optical properties
Author :
Moffitt, Theodore P. ; Prahl, S.A.
Author_Institution :
Oregon Health & Sci. Univ., Portland, OR, USA
Abstract :
Sized-fiber spectroscopy describes a device and method for measuring absorption and reduced scattering properties of tissue using optical fibers with different diameters. The device used in this paper consists of two fibers with diameters of 200 and 600 μm. Each fiber emits and collects its own backscattered light. Backscattered light measurements for solutions with absorption coefficients of 0.1-2.0 cm -1 and reduced scattering coefficients of 5-50 cm-1 demonstrate that the device is most sensitive for the highest scattering materials. Monte Carlo simulations suggest the device is insensitive to the fiber illumination characteristics and that the light returning to the fiber is nearly uniform over all directions. Finally, experiments and Monte Carlo simulations of the sized-fiber device indicate that 50% of the signal arises from roughly 1.2 and 1.9 reduced mean-free paths for the 200- and 600-μm fibers, respectively
Keywords :
Monte Carlo methods; absorption coefficients; backscatter; bio-optics; biological tissues; biomedical measurement; fibre optic sensors; laser applications in medicine; light scattering; reflectometry; 200 micron; 600 micron; Monte Carlo simulations; absorption coefficients; absorption scattering properties; backscattered light; diameters; fiber illumination characteristics; highest scattering materials; local optical properties measurement; mean-free paths; optical fibers; reduced scattering properties; sized-fiber reflectometry; tissue; Absorption; Light scattering; Optical fiber devices; Optical fibers; Optical scattering; Optical sensors; Reflectometry; Size measurement; Spectroscopy; Stimulated emission;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.983299
