Nowadays a growing number of applications require arrays of SPAD detectors with high photon-timing jitter performance. In order to attain this result without impairing the other device characteristics a clear understanding of the avalanche dynamics and statistics is mandatory. In this work we describe the argument, supported by simulations and experimental results, that led us to suggest a timing enhanced SPAD. We state that a P-i-N device with intrinsic layer thicker than 1.5μm not only should have better timing performance but also good noise if compared to traditional SPAD devices.
Timing enhanced silicon SPAD design
ASSANELLI, MATTIA;GULINATTI, ANGELO;RECH, IVAN;GHIONI, MASSIMO ANTONIO
2011-01-01
Abstract
Nowadays a growing number of applications require arrays of SPAD detectors with high photon-timing jitter performance. In order to attain this result without impairing the other device characteristics a clear understanding of the avalanche dynamics and statistics is mandatory. In this work we describe the argument, supported by simulations and experimental results, that led us to suggest a timing enhanced SPAD. We state that a P-i-N device with intrinsic layer thicker than 1.5μm not only should have better timing performance but also good noise if compared to traditional SPAD devices.File in questo prodotto:
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