Fluorescence lifetime imaging through scattering media
Nilsson, Sebastian; Kristensson, Elias; Aldén, Marcus; Bood, Joakim, et al. (2023-02-21). Fluorescence lifetime imaging through scattering media. Scientific Reports
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Published
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English
Authors:
Nilsson, Sebastian
;
Kristensson, Elias
;
Aldén, Marcus
;
Bood, Joakim
, et al.
Department:
Combustion Physics
LTH Profile Area: Engineering Health
LTH Profile Area: The Energy Transition
LU Profile Area: Light and Materials
LTH Profile Area: Photon Science and Technology
Combustion Centre
The Centre for Combustion Science and Technology
Project:
HYdrogen as a FLEXible energy storage for a fully renewable European POWER system
Advanced Laser Diagnostics for Discharge Plasma
Abstract:
Fluorescence lifetime determination has proven to be useful, e.g. identification of molecules, quantitative estimation of species concentration and determination of temperatures. Lifetime determination of exponentially decaying signals is challenging if signals of different decay rates are being mixed, resulting in erroneous results. Such issues occur when the contrast of the measurement object is low, which can be limiting in applied measurements due to spurious light scattering. A solution is presented here where structured illumination is used to enhance image contrast in fluorescence lifetime wide-field imaging. Lifetime imaging determination was carried out using Dual Imaging Modeling Evaluation (DIME), and spatial lock-in analysis was used for removing spurious scattered signal to enable fluorescence lifetime imaging through scattering media.
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