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Analytical model for diffuse reflectance in single fiber reflectance spectroscopy

Dirk J. Faber, Anouk L. Post, Henricus J. C. M. Sterenborg, Ton G. van Leeuwen

2020Optics Letters24 citationsDOIOpen Access PDF

Abstract

Cancer progression leads to changing scattering properties of affected tissues. Single fiber reflectance (SFR) spectroscopy detects these changes at small spatial scales, making it a promising tool for early in situ detection. Despite its simplicity and versatility, SFR signal modeling is hugely complicated so that, presently, only approximate models exist. We use a classic approach from geometrical probability to derive accurate analytical expressions for diffuse reflectance in SFR that shows a strong improvement over existing models. We consider the case of limited collection efficiency and the presence of absorption. A Monte Carlo light transport study demonstrates that we adequately describe the contribution of diffuse reflectance to the SFR signal. Additional steps are required to include semi-ballistic, non-diffuse reflectance also present in the SFR measurement.

Topics & Concepts

Diffuse reflectance infrared fourier transformDiffuse reflectionOpticsMonte Carlo methodReflectivitySIGNAL (programming language)ScatteringSpectroscopyMaterials scienceAbsorption (acoustics)Light scatteringComputer sciencePhysicsChemistryStatisticsMathematicsBiochemistryProgramming languageQuantum mechanicsPhotocatalysisCatalysisOptical Imaging and Spectroscopy TechniquesNon-Invasive Vital Sign MonitoringHemodynamic Monitoring and Therapy
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