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Review of tradeoffs for quenched avalanche photodiode sensors for imaging turbid media

We evaluate the efficiency of a new optoelectronic quenched avalanche photodiode sensor (QAPD), with the potential of enabling high-resolution imaging through turbid media with femtosecond-lasers. Our target application is for imaging cancer in the human breast. We aim to improve the contrast ratio...

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Bibliographic Details
Published in:Microelectronics 2000-07, Vol.31 (7), p.605-610
Main Authors: Perkins, M.L, Hill, S.J, Mickan, S.P, Abbott, D, Munch, J, van Doorn, T
Format: Article
Language:English
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Summary:We evaluate the efficiency of a new optoelectronic quenched avalanche photodiode sensor (QAPD), with the potential of enabling high-resolution imaging through turbid media with femtosecond-lasers. Our target application is for imaging cancer in the human breast. We aim to improve the contrast ratio of the unscattered, image bearing photons by reducing or removing the large background of multiply scattered photons that result in poor spatial resolution. The approach that we are taking is to use temporal discrimination: ultra-short (less than a picosecond) laser pulses and time gated detection can select only those photons which travel almost straight through the tissue. The feasibility of resolving a 1mm structure in 50mm turbid tissue sample, using our system, will be discussed—there are no results reported to date that approach this performance. We aim to enhance the detection of short pulses through time resolved single photon counting technique. In this technique, the earliest arriving photon of the transmitted pulse is detected with a QAPD. When combined with an efficient electronic quenching circuit, the QAPD is insensitive to the later arriving diffuse photons. High accuracy and efficient measurement of the arrival time of the first photons is achieved by time to amplitude conversion electronics with a temporal resolution of 3ps. This paper contains a discussion of the laser source, detection circuit, including QAPD, high-speed comparator, critical biasing and intensity counter.
ISSN:1879-2391
1879-2391
DOI:10.1016/S0026-2692(00)00035-5