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Articoli di riviste sul tema "Diodes à avalanche à photon unique"

Autore: Grafiati
Pubblicato: 25 gennaio 2025

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1

Zunino, Alessandro, Giacomo Garrè, Eleonora Perego, Sabrina Zappone, Mattia Donato e Giuseppe Vicidomini. "s2ISM: A Comprehensive Approach for Uncompromised Super-Resolution and Optical Sectioning in Image Scanning Microscopy". EPJ Web of Conferences 309 (2024): 04021. http://dx.doi.org/10.1051/epjconf/202430904021.

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Image Scanning Microscopy (ISM) enables good signal-to-noise ratio (SNR), super-resolution and high information content imaging by leveraging array detection in a laser-scanning architecture. However, the SNR is still limited by the size of the detector, which is conventionally small to avoid collecting out-of-focus light. Nonetheless, the ISM dataset inherently contains the axial information of the fluorescence emitters. We leverage this knowledge to achieve computational optical sectioning without sacrificing the conventional benefits of ISM. We invert the physical model to fuse the raw dataset into a single image with improved sampling, SNR. lateral resolution, and optical sectioning. We provide a complete theoretical framework and validate our approach with experimental images of biological samples acquired with a custom setup equipped with a single photon avalanche diode (SPAD) array detector. Furthermore, we generalize our method to other imaging techniques, such as multi-photon excitation fluorescence microscopy and fluoresce lifetime imaging. To enable this latter, we take advantage of the single-photon timing ability of SPAD arrays, accessing additional sample information. Our method outperforms conventional reconstruction techniques and opens new perspectives for exploring the unique spatio-temporal information provided by SPAD array detectors.
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Lu, Z., X. Zheng, W. Sun, J. Campbell, X. Jiang e M. A. Itzler. "InGaAs/InP Single Photon Avalanche Diodes". ECS Transactions 45, n. 33 (2 aprile 2013): 37–43. http://dx.doi.org/10.1149/04533.0037ecst.

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3

Gulinatti, Angelo. "Single photon avalanches diodes". Photoniques, n. 125 (2024): 63–68. http://dx.doi.org/10.1051/photon/202412563.

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Abstract (sommario):
Twenty years ago the detection of single photons was little more than a scientific curiosity reserved to a few specialists. Today it is a flourishing field with an ecosystem that extends from university laboratories to large semiconductor manufacturers. This change of paradigm has been stimulated by the emergence of critical applications that rely on single photon detection, and by technical progresses in the detector field. The single photon avalanche diode has unquestionably played a major role in this process.
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4

Xu, Qing Yao, Hong Pei Wang, Xiang Chao Hu, Hai Qian, Ying Cheng Peng, Xiao Hang Ren e Yan Jie Li. "Quenching Circuit of Avalanche Diodes for Single Photon Detection". Applied Mechanics and Materials 437 (ottobre 2013): 1073–76. http://dx.doi.org/10.4028/www.scientific.net/amm.437.1073.

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To reduce the afterpulsing in single photon detection based on avalanche diodes, an advanced passive quenching circuit for operation in free-running mode is developed. The measurement setup is designed. The dark count rate (DCR) and afterpulsing of Single photon avalanche diodes (SPADs) are measured. The results show that the new passive quenching circuit has a better afterpulsing performance compared to traditional circuits.
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Petticrew, Jonathan D., Simon J. Dimler, Xinxin Zhou, Alan P. Morrison, Chee Hing Tan e Jo Shien Ng. "Avalanche Breakdown Timing Statistics for Silicon Single Photon Avalanche Diodes". IEEE Journal of Selected Topics in Quantum Electronics 24, n. 2 (marzo 2018): 1–6. http://dx.doi.org/10.1109/jstqe.2017.2779834.

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6

Pullano, Salvatore A., Giuseppe Oliva, Twisha Titirsha, Md Maruf Hossain Shuvo, Syed Kamrul Islam, Filippo Laganà, Antonio La Gatta e Antonino S. Fiorillo. "Design of an Electronic Interface for Single-Photon Avalanche Diodes". Sensors 24, n. 17 (28 agosto 2024): 5568. http://dx.doi.org/10.3390/s24175568.

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Single-photon avalanche diodes (SPADs) belong to a family of avalanche photodiodes (APDs) with single-photon detection capability that operate above the breakdown voltage (i.e., Geiger mode). Design and technology constraints, such as dark current, photon detection probability, and power dissipation, impose inherent device limitations on avalanche photodiodes. Moreover, after the detection of a photon, SPADs require dead time for avalanche quenching and recharge before they can detect another photon. The reduction in dead time results in higher efficiency for photon detection in high-frequency applications. In this work, an electronic interface, based on the pole-zero compensation technique for reducing dead time, was investigated. A nanosecond pulse generator was designed and fabricated to generate pulses of comparable voltage to an avalanche transistor. The quenching time constant (τq) is not affected by the compensation capacitance variation, while an increase of about 30% in the τq is related to the properties of the specific op-amp used in the design. Conversely, the recovery time was observed to be strongly influenced by the compensation capacitance. Reductions in the recovery time, from 927.3 ns down to 57.6 ns and 9.8 ns, were observed when varying the compensation capacitance in the range of 5–0.1 pF. The experimental results from an SPAD combined with an electronic interface based on an avalanche transistor are in strong accordance, providing similar output pulses to those of an illuminated SPAD.
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7

Ghioni, Massimo, Angelo Gulinatti, Ivan Rech, Franco Zappa e Sergio Cova. "Progress in Silicon Single-Photon Avalanche Diodes". IEEE Journal of Selected Topics in Quantum Electronics 13, n. 4 (2007): 852–62. http://dx.doi.org/10.1109/jstqe.2007.902088.

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8

Zappa, F., A. Tosi, A. Dalla Mora e S. Tisa. "SPICE modeling of single photon avalanche diodes". Sensors and Actuators A: Physical 153, n. 2 (agosto 2009): 197–204. http://dx.doi.org/10.1016/j.sna.2009.05.007.

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9

Neri, L., S. Tudisco, F. Musumeci, A. Scordino, G. Fallica, M. Mazzillo e M. Zimbone. "Dead Time of Single Photon Avalanche Diodes". Nuclear Physics B - Proceedings Supplements 215, n. 1 (giugno 2011): 291–93. http://dx.doi.org/10.1016/j.nuclphysbps.2011.04.034.

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10

Mita, R., G. Palumbo e P. G. Fallica. "Accurate model for single-photon avalanche diodes". IET Circuits, Devices & Systems 2, n. 2 (2008): 207. http://dx.doi.org/10.1049/iet-cds:20070180.

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11

Tan, S. L., D. S. Ong e H. K. Yow. "Advantages of thin single-photon avalanche diodes". physica status solidi (a) 204, n. 7 (luglio 2007): 2495–99. http://dx.doi.org/10.1002/pssa.200723138.

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12

Bulling, Anthony Frederick, e Ian Underwood. "Pion Detection Using Single Photon Avalanche Diodes". Sensors 23, n. 21 (27 ottobre 2023): 8759. http://dx.doi.org/10.3390/s23218759.

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Abstract (sommario):
We present the first reported use of a CMOS-compatible single photon avalanche diode (SPAD) array for the detection of high-energy charged particles, specifically pions, using the Super Proton Synchrotron at CERN, the European Organization for Nuclear Research. The results confirm the detection of incident high-energy pions at 120 GeV, minimally ionizing, which complements the variety of ionizing radiation that can be detected with CMOS SPADs.
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13

Goll, Bernhard, Bernhard Steindl e Horst Zimmermann. "Avalanche Transients of Thick 0.35 µm CMOS Single-Photon Avalanche Diodes". Micromachines 11, n. 9 (19 settembre 2020): 869. http://dx.doi.org/10.3390/mi11090869.

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Two types of single-photon avalanche diodes (SPADs) with different diameters are investigated regarding their avalanche behavior. SPAD type A was designed in standard 0.35-µm complementary metal-oxide-semiconductor (CMOS) including a 12-µm thick p- epi-layer with diameters of 50, 100, 200, and 400 µm; and type B was implemented in the high-voltage (HV) line of this process with diameters of 48.2 and 98.2 µm. Each SPAD is wire-bonded to a 0.35-µm CMOS clocked gating chip, which controls charge up to a maximum 6.6-V excess bias, active, and quench phase as well as readout during one clock period. Measurements of the cathode voltage after photon hits at SPAD type A resulted in fall times (80 to 20%) of 10.2 ns for the 50-µm diameter SPAD for an excess bias of 4.2 V and 3.45 ns for the 200-µm diameter device for an excess bias of 4.26 V. For type B, fall times of 8 ns for 48.2-µm diameter and 5.4-V excess bias as well as 2 ns for 98.2-µm diameter and 5.9-V excess bias were determined. In measuring the whole capacitance at the cathode of the SPAD with gating chip connected, the avalanche currents through the detector were calculated. This resulted in peak avalanche currents of, e.g., 1.19 mA for the 100-µm SPAD type A and 1.64 mA for the 98.2-µm SPAD type B for an excess bias of 5 and 4.9 V, respectively.
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14

Tan, C. H., J. S. Ng, G. J. Rees e J. P. R. David. "Statistics of Avalanche Current Buildup Time in Single-Photon Avalanche Diodes". IEEE Journal of Selected Topics in Quantum Electronics 13, n. 4 (2007): 906–10. http://dx.doi.org/10.1109/jstqe.2007.903843.

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15

Cazimajou, Thibauld, Marco Pala, Jerome Saint-Martin, Remi Helleboid, Jeremy Grebot, Denis Rideau e Philippe Dollfus. "Quenching Statistics of Silicon Single Photon Avalanche Diodes". IEEE Journal of the Electron Devices Society 9 (2021): 1098–102. http://dx.doi.org/10.1109/jeds.2021.3127013.

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16

Mohammad Azim Karami, Mohammad Azim Karami, Armin Amiri-Sani Armin Amiri-Sani e Mohammad Hamzeh Ghormishi Mohammad Hamzeh Ghormishi. "Tunneling in submicron CMOS single-photon avalanche diodes". Chinese Optics Letters 12, n. 1 (2014): 012501–12503. http://dx.doi.org/10.3788/col201412.012501.

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17

Akil, N., S. E. Kerns, D. V. Kerns, A. Hoffmann e J.-P. Charles. "Photon generation by silicon diodes in avalanche breakdown". Applied Physics Letters 73, n. 7 (17 agosto 1998): 871–72. http://dx.doi.org/10.1063/1.121971.

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18

Ullah Habib, Mohammad Habib, Farhan Quaiyum, Khandaker A. Al Mamun, Syed K. Islam e Nicole McFarlane. "Simulation and Modeling of Single Photon Avalanche Diodes". International Journal of High Speed Electronics and Systems 24, n. 03n04 (settembre 2015): 1520006. http://dx.doi.org/10.1142/s0129156415200062.

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A comprehensive SPICE model is developed for single photon avalanche diodes (SPADs). The model simulates both the static and dynamic behaviors of SPADs. Parameters of the model were extracted form experimental data obtained from SPADs designed and fabricated in a standard 0.5μm CMOS process. In this model, the resistive behavior of the device was modeled with an exponential function. Moreover, the device simulated response to incident optical power stimulation is modeled. Experimentally extracted parameters were incorporated into the model, and simulation results agreed with the experimental data.
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19

Karami, Mohammad Azim, Lucio Carrara, Cristiano Niclass, Matthew Fishburn e Edoardo Charbon. "RTS Noise Characterization in Single-Photon Avalanche Diodes". IEEE Electron Device Letters 31, n. 7 (luglio 2010): 692–94. http://dx.doi.org/10.1109/led.2010.2047234.

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20

Itzler, M. A., r. Ben-Michael, C. F. Hsu, K. Slomkowski, A. Tosi, S. Cova, F. Zappa e R. Ispasoiu. "Single photon avalanche diodes (SPADs) for 1.5 μm photon counting applications". Journal of Modern Optics 54, n. 2-3 (20 gennaio 2007): 283–304. http://dx.doi.org/10.1080/09500340600792291.

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21

Hsieh, Chin-An, Chia-Ming Tsai, Bing-Yue Tsui, Bo-Jen Hsiao e Sheng-Di Lin. "Photon-Detection-Probability Simulation Method for CMOS Single-Photon Avalanche Diodes". Sensors 20, n. 2 (13 gennaio 2020): 436. http://dx.doi.org/10.3390/s20020436.

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Abstract (sommario):
Single-photon avalanche diodes (SPADs) in complementary metal-oxide-semiconductor (CMOS) technology have excellent timing resolution and are capable to detect single photons. The most important indicator for its sensitivity, photon-detection probability (PDP), defines the probability of a successful detection for a single incident photon. To optimize PDP is a cost- and time-consuming task due to the complicated and expensive CMOS process. In this work, we have developed a simulation procedure to predict the PDP without any fitting parameter. With the given process parameters, our method combines the process, the electrical, and the optical simulations in commercially available software and the calculation of breakdown trigger probability. The simulation results have been compared with the experimental data conducted in an 800-nm CMOS technology and obtained a good consistence at the wavelength longer than 600 nm. The possible reasons for the disagreement at the short wavelength have been discussed. Our work provides an effective way to optimize the PDP of a SPAD prior to its fabrication.
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22

Kawata, Go, Keita Sasaki e Ray Hasegawa. "Avalanche-Area Dependence of Gain in Passive-Quenched Single-Photon Avalanche Diodes by Multiple-Photon Injection". IEEE Transactions on Electron Devices 65, n. 6 (giugno 2018): 2525–30. http://dx.doi.org/10.1109/ted.2018.2825995.

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23

Zheng, Lixia, Huan Hu, Ziqing Weng, Qun Yao, Jin Wu e Weifeng Sun. "Compact Active Quenching Circuit for Single Photon Avalanche Diodes Arrays". Journal of Circuits, Systems and Computers 26, n. 10 (2 marzo 2017): 1750149. http://dx.doi.org/10.1142/s0218126617501493.

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Abstract (sommario):
A compact quenching circuit for Single Photon Avalanche Diode (SPAD) arrays is presented. The proposed circuit preserves the advantages of small area occupation and low power consumption, since it mainly adopts the junction capacitance of the detector to sense the avalanche current. The sensing time is now limited more by the detector rather than the circuit itself. Fabricated in TSMC standard 0.35[Formula: see text][Formula: see text]m CMOS process, the proposed circuit only occupies an area of 20[Formula: see text][Formula: see text]m[Formula: see text][Formula: see text][Formula: see text]31[Formula: see text][Formula: see text]m and can operate properly with the detector biased up to 5[Formula: see text]V above breakdown. The circuit functionality has been verified by experimental measurements, operating with 64[Formula: see text][Formula: see text][Formula: see text]64 InGaAs/InP single photon avalanche diode arrays for time-of-flight-based applications.
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24

Privitera, Simona, Salvatore Tudisco, Luca Lanzanò, Francesco Musumeci, Alessandro Pluchino, Agata Scordino, Angelo Campisi et al. "Single Photon Avalanche Diodes: Towards the Large Bidimensional Arrays". Sensors 8, n. 8 (6 agosto 2008): 4636–55. http://dx.doi.org/10.3390/s8084636.

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25

Tian, Yuchong, Junjie Tu e Yanli Zhao. "A PSpice Circuit Model for Single-Photon Avalanche Diodes". Optics and Photonics Journal 07, n. 08 (2017): 1–6. http://dx.doi.org/10.4236/opj.2017.78b001.

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26

Ma, Hai-Qiang, Jian-Hui Yang, Ke-Jin Wei, Rui-Xue Li e Wu Zhu. "Afterpulsing characteristics of InGaAs/InP single photon avalanche diodes". Chinese Physics B 23, n. 12 (28 novembre 2014): 120308. http://dx.doi.org/10.1088/1674-1056/23/12/120308.

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27

Panglosse, Aymeric, Philippe Martin-Gonthier, Olivier Marcelot, Cedric Virmontois, Olivier Saint-Pe e Pierre Magnan. "Dark Count Rate Modeling in Single-Photon Avalanche Diodes". IEEE Transactions on Circuits and Systems I: Regular Papers 67, n. 5 (maggio 2020): 1507–15. http://dx.doi.org/10.1109/tcsi.2020.2971108.

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28

Calandri, Niccolo, Mirko Sanzaro, Alberto Tosi e Franco Zappa. "Charge Persistence in InGaAs/InP Single-Photon Avalanche Diodes". IEEE Journal of Quantum Electronics 52, n. 3 (marzo 2016): 1–7. http://dx.doi.org/10.1109/jqe.2016.2526608.

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29

Spinelli, A., e A. L. Lacaita. "Physics and numerical simulation of single photon avalanche diodes". IEEE Transactions on Electron Devices 44, n. 11 (1997): 1931–43. http://dx.doi.org/10.1109/16.641363.

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30

Cova, S., A. Lacaita, M. Ghioni, G. Ripamonti e T. A. Louis. "20‐ps timing resolution with single‐photon avalanche diodes". Review of Scientific Instruments 60, n. 6 (giugno 1989): 1104–10. http://dx.doi.org/10.1063/1.1140324.

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31

Zheng, Lixia, Jiangjiang Tian, Ziqing Weng, Huan Hu, Jin Wu e Weifeng Sun. "An Improved Convergent Model for Single-Photon Avalanche Diodes". IEEE Photonics Technology Letters 29, n. 10 (15 maggio 2017): 798–801. http://dx.doi.org/10.1109/lpt.2017.2685680.

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32

Neri, L., S. Tudisco, L. Lanzanò, F. Musumeci, S. Privitera, A. Scordino, G. Condorelli et al. "Design and characterization of single photon avalanche diodes arrays". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 617, n. 1-3 (maggio 2010): 432–33. http://dx.doi.org/10.1016/j.nima.2009.06.085.

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Tudisco, Salvatore, Francesco Musumeci, Luca Lanzano, Agata Scordino, Simona Privitera, Angelo Campisi, Luigi Cosentino et al. "A New Generation of SPAD—Single-Photon Avalanche Diodes". IEEE Sensors Journal 8, n. 7 (luglio 2008): 1324–29. http://dx.doi.org/10.1109/jsen.2008.926962.

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34

Tisa, Simone, Fabrizio Guerrieri e Franco Zappa. "Variable-load quenching circuit for single-photon avalanche diodes". Optics Express 16, n. 3 (2008): 2232. http://dx.doi.org/10.1364/oe.16.002232.

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35

Assanelli, Mattia, Antonino Ingargiola, Ivan Rech, Angelo Gulinatti e Massimo Ghioni. "Photon-Timing Jitter Dependence on Injection Position in Single-Photon Avalanche Diodes". IEEE Journal of Quantum Electronics 47, n. 2 (febbraio 2011): 151–59. http://dx.doi.org/10.1109/jqe.2010.2068038.

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36

Gaskill, D. Kurt, Jun Hu, X. Xin, Jian Hui Zhao, Brenda L. VanMil, Rachael L. Myers-Ward e Charles R. Eddy. "Proton Irradiation of 4H-SiC Ultraviolet Single Photon Avalanche Diodes". Materials Science Forum 679-680 (marzo 2011): 551–54. http://dx.doi.org/10.4028/www.scientific.net/msf.679-680.551.

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The effects of proton irradiation on uv 4H-SiC single photon avalanche photodiodes (SPADs) are reported. The SPADs, grown by chemical vapor deposition, were designed for uv operation with dark count rates (DCR) of about 30 kHz and single photon detection efficiency (SPDE) of 4.89%. The SPADs were irradiated with 2 MeV protons to a fluence of 1012 cm-2. After irradiation, the I-V characteristics show forward voltage (<1.9 V) generation-recombination currents 2 to 3 times higher than before irradiation. Single photon counting measurements imply generation-recombination centers created in the band gap after irradiation. For threshold voltage ranging from 23 to 26 mV, the 4H-SiC SPAD showed low DCR (<54 kHz) and high SPDE (>1%) after irradiation. The SPADs demonstrated proton radiation tolerance for geosynchronous space applications.
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37

Buchner, Andre, Stefan Hadrath, Roman Burkard, Florian M. Kolb, Jennifer Ruskowski, Manuel Ligges e Anton Grabmaier. "Analytical Evaluation of Signal-to-Noise Ratios for Avalanche- and Single-Photon Avalanche Diodes". Sensors 21, n. 8 (20 aprile 2021): 2887. http://dx.doi.org/10.3390/s21082887.

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Performance of systems for optical detection depends on the choice of the right detector for the right application. Designers of optical systems for ranging applications can choose from a variety of highly sensitive photodetectors, of which the two most prominent ones are linear mode avalanche photodiodes (LM-APDs or APDs) and Geiger-mode APDs or single-photon avalanche diodes (SPADs). Both achieve high responsivity and fast optical response, while maintaining low noise characteristics, which is crucial in low-light applications such as fluorescence lifetime measurements or high intensity measurements, for example, Light Detection and Ranging (LiDAR), in outdoor scenarios. The signal-to-noise ratio (SNR) of detectors is used as an analytical, scenario-dependent tool to simplify detector choice for optical system designers depending on technologically achievable photodiode parameters. In this article, analytical methods are used to obtain a universal SNR comparison of APDs and SPADs for the first time. Different signal and ambient light power levels are evaluated. The low noise characteristic of a typical SPAD leads to high SNR in scenarios with overall low signal power, but high background illumination can saturate the detector. LM-APDs achieve higher SNR in systems with higher signal and noise power but compromise signals with low power because of the noise characteristic of the diode and its readout electronics. Besides pure differentiation of signal levels without time information, ranging performance in LiDAR with time-dependent signals is discussed for a reference distance of 100 m. This evaluation should support LiDAR system designers in choosing a matching photodiode and allows for further discussion regarding future technological development and multi pixel detector designs in a common framework.
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Kurilla, Boldizsár. "Single Photon Communication with Avalanche Diodes and the General Basics of Photon Counting". Academic and Applied Research in Military and Public Management Science 15, n. 1 (30 aprile 2016): 19–30. http://dx.doi.org/10.32565/aarms.2016.1.2.

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Single photon communication (SPC) already exists in several applications in laboratory and even outdoor conditions. In the field of quantum cryptography SPC experiments are part of military applications too. There are several methods to detect every single impacting photon in such an experiment. Mostly photomultiplier tubes (PMT) are used. In some cases single photon avalanche diodes (SPAD) are more suitable for photon detection. Both the SPADs and PMTs have advantages and disadvantages. Usually PMTs have much larger detection areas than SPADs, but most of the PMTs detection efficiency peaks at 400 nm wavelength compared to the SPADs, where it peaks at 600–700 nm wavelength. For long distance laser measurements the higher wavelength is more suitable due to the Rayleigh scattering, but the detection hole of SPAD is very tight, which is why it is really hard to target the laser punctually without an optical gyroscope.
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39

Di Capua, F., M. Campajola, L. Campajola, C. Nappi, E. Sarnelli, L. Gasparini e H. Xu. "Random Telegraph Signal in Proton Irradiated Single-Photon Avalanche Diodes". IEEE Transactions on Nuclear Science 65, n. 8 (agosto 2018): 1654–60. http://dx.doi.org/10.1109/tns.2018.2814823.

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40

Wu, Jau-Yang, Ping-Keng Lu e Sheng-Di Lin. "Two-dimensional photo-mapping on CMOS single-photon avalanche diodes". Optics Express 22, n. 13 (26 giugno 2014): 16462. http://dx.doi.org/10.1364/oe.22.016462.

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41

Dalla Mora, A., A. Tosi, D. Contini, L. Di Sieno, G. Boso, F. Villa e A. Pifferi. "Memory effect in silicon time-gated single-photon avalanche diodes". Journal of Applied Physics 117, n. 11 (21 marzo 2015): 114501. http://dx.doi.org/10.1063/1.4915332.

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42

Xudong Jiang, M. A. Itzler, R. Ben-Michael, K. Slomkowski, M. A. Krainak, S. Wu e Xiaoli Sun. "Afterpulsing Effects in Free-Running InGaAsP Single-Photon Avalanche Diodes". IEEE Journal of Quantum Electronics 44, n. 1 (gennaio 2008): 3–11. http://dx.doi.org/10.1109/jqe.2007.906996.

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43

Lu, Zhiwen, Wenlu Sun, Joe C. Campbell, Xudong Jiang e Mark A. Itzler. "Pulsed Gating With Balanced InGaAs/InP Single Photon Avalanche Diodes". IEEE Journal of Quantum Electronics 49, n. 5 (maggio 2013): 485–90. http://dx.doi.org/10.1109/jqe.2013.2253762.

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Rech, Ivan, Ivan Labanca, Giacomo Armellini, Angelo Gulinatti, Massimo Ghioni e Sergio Cova. "Operation of silicon single photon avalanche diodes at cryogenic temperature". Review of Scientific Instruments 78, n. 6 (giugno 2007): 063105. http://dx.doi.org/10.1063/1.2743167.

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Acerbi, Fabio, Alberto Tosi e Franco Zappa. "Growths and diffusions for InGaAs/InP single-photon avalanche diodes". Sensors and Actuators A: Physical 201 (ottobre 2013): 207–13. http://dx.doi.org/10.1016/j.sna.2013.07.009.

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Pellion, D., K. Jradi, N. Brochard, D. Prêle e D. Ginhac. "Single-Photon Avalanche Diodes (SPAD) in CMOS 0.35 µm technology". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 787 (luglio 2015): 380–85. http://dx.doi.org/10.1016/j.nima.2015.01.100.

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47

Michalet, Xavier, Antonino Ingargiola, Ryan A. Colyer, Giuseppe Scalia, Shimon Weiss, Piera Maccagnani, Angelo Gulinatti, Ivan Rech e Massimo Ghioni. "Silicon Photon-Counting Avalanche Diodes for Single-Molecule Fluorescence Spectroscopy". IEEE Journal of Selected Topics in Quantum Electronics 20, n. 6 (novembre 2014): 248–67. http://dx.doi.org/10.1109/jstqe.2014.2341568.

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Hu, Jun, Xiaobin Xin, Jian H. Zhao, Brenda L. VanMil, Rachael Myers-Ward, Charles R. Eddy e David Kurt Gaskill. "Proton Irradiation of Ultraviolet 4H-SiC Single Photon Avalanche Diodes". IEEE Transactions on Nuclear Science 58, n. 6 (dicembre 2011): 3343–47. http://dx.doi.org/10.1109/tns.2011.2168980.

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49

Gu, Jinlong, Mohammad Habib Ullah Habib e Nicole McFarlane. "Perimeter-Gated Single-Photon Avalanche Diodes: An Information Theoretic Assessment". IEEE Photonics Technology Letters 28, n. 6 (15 marzo 2016): 701–4. http://dx.doi.org/10.1109/lpt.2015.2505241.

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Karami, Mohammad Azim, Abdollah Pil-Ali e Mohammad Reza Safaee. "Multistable defect characterization in proton irradiated single-photon avalanche diodes". Optical and Quantum Electronics 47, n. 7 (5 dicembre 2014): 2155–60. http://dx.doi.org/10.1007/s11082-014-0089-7.

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