Low-coherence optical tomography in turbid tissue: theoretical analysis
- 1 October 1995
- journal article
- Published by Optica Publishing Group in Applied Optics
- Vol. 34 (28), 6564-6574
- https://doi.org/10.1364/ao.34.006564
Abstract
On the basis of white-light interferometry and statistical optics, a theoretical model for low-coherence optical tomography is presented that establishes the relation of interference modulation with path-length-resolved reflectance and that can provide analytical expressions and numerical solutions by means of a Fourier transform. The Monte Carlo technique is used to simulate the path-length-resolved reflectance from different multilayer tissue phantoms. Theoretical analyses and preliminary experimental results suggest that, unlike time-resolved spectroscopy, low-coherence optical tomography detects the local relative variations of path-length-resolved reflectance from the turbid tissues.This publication has 22 references indexed in Scilit:
- TIME-GATED IMAGING WITH NONLINEAR OPTICAL RAMAN INTERACTIONSOptics and Photonics News, 1993
- ELECTRONIC HOLOGRAPHY FOR IMAGING THROUGH TISSUEOptics and Photonics News, 1993
- PHOTON DIFFUSION IN BREAST AND BRAIN: SPECTROSCOPY AND IMAGINGOptics and Photonics News, 1993
- Time-resolved Fourier spectrum and imaging in highly scattering mediaApplied Optics, 1993
- Optical Time-of-Flight and Absorbance Imaging of Biologic MediaScience, 1993
- Spectral dependence of temporal point spread functions in human tissuesApplied Optics, 1993
- Coherent backscattering in biological media: measurement and estimation of optical propertiesApplied Optics, 1993
- Line scan acquisition for time-resolved imaging through scattering mediaOptical Engineering, 1993
- Time-resolved holographyNature, 1991
- Time resolved reflectance and transmittance for the noninvasive measurement of tissue optical propertiesApplied Optics, 1989