We demonstrate the feasibility of time-resolved diffuse reflectance measurements at small sourcedetector separations using a single-photon avalanche diode operated in time-gated mode. Photon time distributions at an interfiber distance of 2 mm were obtained on a homogeneous tissue phantom with a dynamic range of 10^6 and collecting photons at arrival times up to 4 ns. Moreover, we were able to detect a local inhomogeneity deeply buried within a diffusive medium with better spatial resolution, higher signal intensity, and same contrast of a larger (20 mm) interfiber distance. Finally, the proposed approach proved valuable to detect in vivo a task-related brain activation.
Time-resolved diffuse reflectance using small source-detector separation and fast single-photon gating
PIFFERI, ANTONIO GIOVANNI;TORRICELLI, ALESSANDRO;SPINELLI, LORENZO;CONTINI, DAVIDE;CUBEDDU, RINALDO;TOSI, ALBERTO;DALLA MORA, ALBERTO;ZAPPA, FRANCO;COVA, SERGIO
2008-01-01
Abstract
We demonstrate the feasibility of time-resolved diffuse reflectance measurements at small sourcedetector separations using a single-photon avalanche diode operated in time-gated mode. Photon time distributions at an interfiber distance of 2 mm were obtained on a homogeneous tissue phantom with a dynamic range of 10^6 and collecting photons at arrival times up to 4 ns. Moreover, we were able to detect a local inhomogeneity deeply buried within a diffusive medium with better spatial resolution, higher signal intensity, and same contrast of a larger (20 mm) interfiber distance. Finally, the proposed approach proved valuable to detect in vivo a task-related brain activation.| File | Dimensione | Formato | |
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