Design and analysis of a novel low dark count rate SPAD

YANG Jia; JIN Xiang-Liang; YANG Hong-Jiao; TANG Li-Zhen; LIU Wei-Hui

doi:10.11972/j.issn.1001-9014.2016.04.003

[1] Soper S A, Flanagan J H, Legendre B L, et al. Near-infrared, laser-induced fluorescence detection for DNA sequencing applications [J]. IEEE Journal of Selected Topics in Quantum Electronics. 1996, 2(4):1129-1139.

[2] Nightingale N S. A new silicon avalanche photodiode photon counting detector module for astronomy [J]. Experimental Astronomy. 1990,1(6):407-422.

[3] Li H, Ren X, Ying L, et al. Measuring single-molecule nucleic acid dynamics in solution by two-color filtered ratiometric fluorescence correlation spectroscopy [J]. Proceedings of the National Academy of Sciences of the United States of America. 2004, 101(40):14425-30.

[4] Yang H, Luo G, Karnchanaphanurach P, et al. Protein conformational dynamics probed by single-molecule electron transfer [J]. Science. 2003, 302(5643):262-266.

[5] Stefanov K D. CCD-based vertex detector for the future linear collider [J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2005, 549(1-3):93-98.

[6] Deptuch G, Claus G, Colledani C, et al. Development of monolithic active pixel sensors for charged particle tracking [J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2003, 511(1-2)：240-249.

[7] Frach T, Prescher G, Degenhardt C, et al. The digital silicon photomultiplier-Principle of operation and intrinsic detector performance [C]. In Nuclear Science Symposium Conference Record (NSS/MIC). 2009.

[8] Velthuis J J, Kohrs R, Mathes M, et al. DEPFET, a monolithic active pixel sensor for the ILC [J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2007, 579(2):685-689.

[9] Rochas A, Gani M, Furrer B, et al, Single photon detector fabricated in a complementary metal-oxide-semiconductor high-voltage technology [J]. Review of Scientific Instruments. 74(7):3263.

[10] Finkelstein H, Hsu M J, Esener S C. STI-bounded single photon avalanche diode in a deep-submicrometer CMOS technology [J]. IEEE Electron Device Letters. 2006, 27(11):887-889.

[11] Karami M A. Deep-submicron CMOS Single photon Detectors and Quantum Effects[D]. Technical University of Delft. 2011.

[12] Richardson J A, Webster E A G, Grant L A, et al. Scaleable single photon avalanche diode structures in nanometer CMOS technology[J]. IEEE Transactions on Electron Devices. 2011, 58(7):2028-2035.

[13] Niclass C L. Single photon image sensor in CMOS: Picosecond resolution for three dimensional imaging[D]. Ecole Polytechnique Federalede Lausanne.2008.

[14] Faramarzpour N, Deen M J, Shirani S, et al. Fully integrated single photon avalanche diode detector in standard CMOS 0.18-m technology [J]. IEEE Transactions on Electron Devices. 2008, 55(3):760-767.

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