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Development of silicone-based phantoms for biomedical optics from 400 to 1550 nm

Markus Wagner, Oliver Fugger, Florian Foschum, Alwin Kienle

2024Biomedical Optics Express15 citationsDOIOpen Access PDF

Abstract

This work describes the development of silicone-based evaluation phantoms for biomedical optics in the wavelength range from 400 to 1550 nm. The absorption coefficient μ a and the reduced scattering coefficient μ s ′ were determined using an integrating sphere setup. Zirconium dioxide pigments were used as scatterers and carbon black as absorbers. We developed an in-house manufacturing process using a Hauschild SpeedMixer to ensure reproducibility. A set of nine cubic phantoms with three different reduced scattering and absorption coefficients was produced. Prediction of the μ a and μ s ′ was done by using the weighted mass concentrations of the used materials. The average prediction accuracy over all wavelengths and phantoms is 1.0% for the reduced scattering coefficient and 3.5% for the absorption coefficient.

Topics & Concepts

OpticsSiliconeBiomedical engineeringMaterials scienceMedical imagingMedical physicsMedicinePhysicsRadiologyComposite materialOptical Imaging and Spectroscopy TechniquesPhotoacoustic and Ultrasonic ImagingNon-Invasive Vital Sign Monitoring
Development of silicone-based phantoms for biomedical optics from 400 to 1550 nm | Litcius