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E-grāmata: Analog Electronics for Radiation Detection

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Edited by (Wegapixel, A Division of Specialised Imaging Ltd, UK)
  • Formāts: 306 pages
  • Sērija : Devices, Circuits, and Systems
  • Izdošanas datums: 19-Dec-2017
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781498703574
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Analog Electronics for Radiation DetectionPalielināt
  • Formāts: 306 pages
  • Sērija : Devices, Circuits, and Systems
  • Izdošanas datums: 19-Dec-2017
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781498703574
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Analog Electronics for Radiation Detection showcases the latest advances in readout electronics for particle, or radiation, detectors. Featuring chapters written by international experts in their respective fields, this authoritative text:











Defines the main design parameters of front-end circuitry developed in microelectronics technologies Explains the basis for the use of complementary metaloxide semiconductor (CMOS) image sensors for the detection of charged particles and other non-consumer applications Delivers an in-depth review of analog-to-digital converters (ADCs), evaluating the pros and cons of ADCs integrated at the pixel, column, and per-chip levels Describes incremental sigmadelta ADCs, time-to-digital converter (TDC) architectures, and digital pulse-processing techniques complementary to analog processing Examines the fundamental parameters and front-end types associated with silicon photomultipliers used for single visible-light photon detection Discusses pixel sensors with per-pixel TDCs, channel density challenges, and emerging 3D technologies interconnecting detectors and electronics

Thus, Analog Electronics for Radiation Detection provides a single source for state-of-the-art information on analog electronics for the readout of radiation detectors.
Preface xi
Editors xiii
Contributors xv
Chapter 1 Integrated Analog Signal Processing Readout Front Ends for Particle Detectors
1(26)
Thomas Noulis
Chapter 2 Analog Electronics for HVCMOS Sensors
27(20)
Ivan Peric
Chapter 3 Analog Electronics for Radiation Detection
47(24)
Juan A. Lenero-Bardallo
Angel Rodriguez-Vazquez
Chapter 4 Low-Noise Detectors through Incremental Sigma--Delta ADCs
71(20)
Adi Xhakoni
Georges Gielen
Chapter 5 Time-to-Digital Conversion
91(30)
Yasuo Arai
Chapter 6 Digital Pulse-Processing Techniques for X-Ray and Gamma-Ray Semiconductor Detectors
121(20)
Leonardo Abbene
Gaetano Gerardi
Fabio Principato
Chapter 7 Silicon Photomultipliers for High-Performance Scintillation Crystal Readout Applications
141(44)
Carl Jackson
Kevin O'Neill
Liam Wall
Brian McGarvey
Chapter 8 Designing Photon-Counting, Wide-Spectrum Optical Radiation Detectors in CMOS-Compatible Technologies
185(18)
Edoardo Charbon
Chockalingam Veerappan
Chapter 9 Front-End Electronics for Silicon Photomultipliers
203(34)
Cristoforo Marzocca
Fabio Ciciriello
Francesco Corsi
Francesco Licciulli
Gianvito Matarrese
Chapter 10 CMOS Image Sensors for Radiation Detection
237(28)
Nicola Guerrini
Chapter 11 Technology Needs for Modular Pixel Detectors
265(18)
Paul Seller
Index 283
Renato Turchetta is leading the development of high-end complementary metaloxide semiconductor (CMOS) image sensors at the Rutherford Appleton Laboratory in Didcot, UK, the largest national laboratory in the United Kingdom owned and operated by the Science and Technology Facilities Council (STFC). He earned his masters degree (Laurea) from the University of Milan, Italy, in 1988 and his PhD in applied physics from the University of Strasbourg, France, in 1991. He worked as an assistant professor there until 1999, the year when he moved to the Rutherford Appleton Laboratory. In his career, he has worked on the development of semiconductor detectors and their readout microelectronics before focusing on CMOS image sensors. He has worked in this area for more than 15 years. He is the author and coauthor of several patents and more than 100 papers that were published in international journals. He is currently an acting member of the scientific committee for Image Sensors Europe, the International Congress on High-Speed Imaging and Photonics, and the Pixel and CPIX conferences.
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