Continuous Wave fNIRS with Silicon Photomultiplier

Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S;

Risultato della ricerca: Paper

Abstract

This work is focused on the development of a Continuous Wave (CW) NIRS integrated system with multi-wavelength LED sources between 700 and 950 nm and a Silicon Photomultiplier detector (SiPM) developed by STMicroelectronics. The Signal Noise Rate (SNR), measured placing the LEDs and an SiPM in a direct contact with the surface of a plastic phantom mimicking a real human head, results higher than the calculated minimum, required to detect small variation in the HbO2 and HHb concentration, till a source detector separation (SDS) of 6 cm.
Lingua originaleEnglish
Stato di pubblicazionePublished - 2015

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continuous radiation
detectors
silicon
light emitting diodes
plastics
wavelengths

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Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S; (2015). Continuous Wave fNIRS with Silicon Photomultiplier.

Continuous Wave fNIRS with Silicon Photomultiplier. / Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S;.

2015.

Risultato della ricerca: Paper

Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S; 2015, 'Continuous Wave fNIRS with Silicon Photomultiplier'.
Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S;. Continuous Wave fNIRS with Silicon Photomultiplier. 2015.
Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S;. / Continuous Wave fNIRS with Silicon Photomultiplier.
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title = "Continuous Wave fNIRS with Silicon Photomultiplier",
abstract = "This work is focused on the development of a Continuous Wave (CW) NIRS integrated system with multi-wavelength LED sources between 700 and 950 nm and a Silicon Photomultiplier detector (SiPM) developed by STMicroelectronics. The Signal Noise Rate (SNR), measured placing the LEDs and an SiPM in a direct contact with the surface of a plastic phantom mimicking a real human head, results higher than the calculated minimum, required to detect small variation in the HbO2 and HHb concentration, till a source detector separation (SDS) of 6 cm.",
author = "{Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S;} and Giaconia, {Giuseppe Costantino} and Alessandro Busacca and Antonino Parisi and Gabriele Adamo and Santangelo, {Maria Francesca}",
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T1 - Continuous Wave fNIRS with Silicon Photomultiplier

AU - Pagano, R.; Sciuto, E. L.; Libertino, S.; Fallica, P. G.; Ferla, G.; Merla, A.; Lombardo, S;

AU - Giaconia, Giuseppe Costantino

AU - Busacca, Alessandro

AU - Parisi, Antonino

AU - Adamo, Gabriele

AU - Santangelo, Maria Francesca

PY - 2015

Y1 - 2015

N2 - This work is focused on the development of a Continuous Wave (CW) NIRS integrated system with multi-wavelength LED sources between 700 and 950 nm and a Silicon Photomultiplier detector (SiPM) developed by STMicroelectronics. The Signal Noise Rate (SNR), measured placing the LEDs and an SiPM in a direct contact with the surface of a plastic phantom mimicking a real human head, results higher than the calculated minimum, required to detect small variation in the HbO2 and HHb concentration, till a source detector separation (SDS) of 6 cm.

AB - This work is focused on the development of a Continuous Wave (CW) NIRS integrated system with multi-wavelength LED sources between 700 and 950 nm and a Silicon Photomultiplier detector (SiPM) developed by STMicroelectronics. The Signal Noise Rate (SNR), measured placing the LEDs and an SiPM in a direct contact with the surface of a plastic phantom mimicking a real human head, results higher than the calculated minimum, required to detect small variation in the HbO2 and HHb concentration, till a source detector separation (SDS) of 6 cm.

UR - http://hdl.handle.net/10447/154735

M3 - Paper

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