Using Disk-Detector Geometry for Calculation of Optical Path Length by Monte Carlo Simulation of Light Transport in Turbid Media

Disk-detector geometry replacing a conventional square detector with a disk detector is a technique designed to speed up Monte Carlo simulations of light transport in turbid media, such as tissues, in the context of a backscattering problem. In this study, applicability of using this technique to ca...

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Main Author: Tarasov, A.P.
Format: Conference Proceeding
Language:English
Subjects:
acceleration
Detectors
disk detector
Geometry
Integrated optics
Lasers
light transport
Media
Monte Carlo
Monte Carlo methods
Optical detectors
optical path length
tissue
turbid medium
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description Disk-detector geometry replacing a conventional square detector with a disk detector is a technique designed to speed up Monte Carlo simulations of light transport in turbid media, such as tissues, in the context of a backscattering problem. In this study, applicability of using this technique to calculate optical path length traveled by photons in a medium is tested. It is shown that such calculations are performed correctly and their accuracy is higher than in the case of square detectors.
doi_str_mv 10.1109/ICLO54117.2022.9840043
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source IEEE Xplore All Conference Series
subjects acceleration
Detectors
disk detector
Geometry
Integrated optics
Lasers
light transport
Media
Monte Carlo
Monte Carlo methods
Optical detectors
optical path length
tissue
turbid medium
title Using Disk-Detector Geometry for Calculation of Optical Path Length by Monte Carlo Simulation of Light Transport in Turbid Media
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