In this work we report a comprehensive simulation study in which we quantify the effects of all parameters affecting the Instrument Response Function of a time-domain system in terms of sensitivity to an optical perturbation
Diffuse optics is a powerful tool for clinical applications ranging from oncology to neurology, but ...
The recent developments in time-domain diffuse optics that rely on physical concepts (e.g., time-gat...
Large area single-photon detectors enhance light harvesting capability beyond state-ofthe-art provid...
In this work we report a comprehensive simulation study in which we quantify the effects of all par...
Light is a powerful non-invasive tool that can be exploited to probe highly scattering media like bi...
Diffuse Optics is growing in terms of applications ranging from e.g. oximetry, to mammography, molec...
In time-domain diffuse optics the sensitivity to localized absorption changes buried inside a diffu...
Diffuse optics is a powerful tool for clinical applications ranging from oncology to neurology, but ...
The recent developments in time-domain diffuse optics that rely on physical concepts (e.g., time-gat...
Large area single-photon detectors enhance light harvesting capability beyond state-ofthe-art provid...
In this work we report a comprehensive simulation study in which we quantify the effects of all par...
Light is a powerful non-invasive tool that can be exploited to probe highly scattering media like bi...
Diffuse Optics is growing in terms of applications ranging from e.g. oximetry, to mammography, molec...
In time-domain diffuse optics the sensitivity to localized absorption changes buried inside a diffu...
Diffuse optics is a powerful tool for clinical applications ranging from oncology to neurology, but ...
The recent developments in time-domain diffuse optics that rely on physical concepts (e.g., time-gat...
Large area single-photon detectors enhance light harvesting capability beyond state-ofthe-art provid...
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