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Books on the topic 'Radiation detector applications'

Author: Grafiati
Published: 4 June 2021
Last updated: 12 February 2022

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1

Tavernier, Stefaan, Alexander Gektin, Boris Grinyov, and William W. Moses, eds. Radiation Detectors for Medical Applications. Dordrecht: Springer Netherlands, 2006. http://dx.doi.org/10.1007/1-4020-5093-3.

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2

Delaney, C. F. G. Radiation detectors: Physical principles and applications. Oxford: Clarendon Press, 1992.

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3

Goulding, Fred S. Physics and technology of semiconductor radiation detectors and their applications. Birmingham: University of Birmingham, 1987.

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4

Fabjan, C. W., and H. Schopper, eds. Detectors for Particles and Radiation. Part 2: Systems and Applications. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-14142-3.

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5

NATO Advanced Research Workshop (2003 Vilnius, Lithuania). UV solid-state light emitters and detectors. Boston: Kluwer Academic Publishers, 2004.

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6

Talyansky, Edward. Soviet developments of IR detectors. Falls Church, VA: Delphic Associates, 1991.

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7

National Council on Radiation Protection and Measurements. Radiation protection in the application of active detection technologies. Bethesda, Md: National Council on Radiation Protection and Measurements, 2011.

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8

Hong wai sou suo xi tong = Infrared search system. Beijing: Guo fang gong ye chu ban she, 2013.

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9

Ultrafast x-ray sources and detectors. [S.l.]: Spie, 2007.

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10

Thomas, Richard E. Long wave infrared research in the Soviet Union: Silicon- and germanium-based detectors. College Station, Tex: Center for Strategic Technology, the Texas Engineering Experiment Station Texas A&M University System, 1986.

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11

Diego, Calif ). Penetrating Radiation Systems and Applications (Conference) (14th 2013 San. Penetrating Radiation Systems and Applications XIV: 28 August 2013, San Diego, California, United States. Bellingham, Washington, USA: SPIE, 2013.

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12

Doty, F. Patrick. Penetrating radiation systems and applications X: 6 August 2009, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2009.

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13

Doty, F. Patrick. Penetrating radiation systems and applications IX: 13-14 August 2008, San Diego, California, USA. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2008.

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14

Doty, F. Patrick. Penetrating radiation systems and applications VIII: 29-30 August, 2007, San Diego, California, USA. Edited by Society of Photo-optical Instrumentation Engineers. Bellingham, Wash: SPIE, 2007.

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15

Chang, Zenghu. Ultrafast x-ray sources and detectors: 26-27 August, 2007, San Diego, California, USA. Bellingham, Wash: SPIE, 2007.

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16

Orest, Tatchyn Roman, Society of Photo-optical Instrumentation Engineers., and Conference on Ultrafast X-ray Detectors and Applications (2003 : San Diego, Calif.), eds. Fourth-generation x-ray sources and ultrafast x-ray detectors: 4 and 6 August 2003, San Diego, California, USA. Bellingham, Wash., USA: SPIE, 2004.

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17

Grim, Gary P., and Richard C. Schirato. Penetrating radiation systems and applications XII: 21-24 August 2011, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2011.

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18

Doty, F. Patrick. Penetrating radiation systems and applications XI: 2-5 August 2010, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2010.

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19

Razeghi, M. Terahertz emitters, receivers, and applications II: 21 August 2011, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2011.

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20

Lampin, Jean-Franc̦ois, Didier J. Decoster, and M. Razeghi. Terahertz emitters, receivers, and applications: 1 and 3 August, 2010, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2010.

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21

International Conference on Large Scale Applications and Radiation Hardness of Semiconductor Detectors (1st 1993 Firenze, Italy). 1st International Conference on Large Scale Applications and Radiation Hardness of Semiconductor Detectors, Istituto SS Annunziata, Firenze, 7-9 July, 1993. Bologna: Italian Physical Society, 1993.

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22

Office, General Accounting. Electronic warfare. Washington, D.C: The Office, 1993.

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23

Office, General Accounting. Electronic warfare: No Air Force follow-up on test equipment inadequacies : report to the Chairman, Committee on Armed Services, House of Representatives. Washington, D.C: The Office, 1991.

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24

Office, General Accounting. Electronic warfare: Comprehensive strategy still needed for suppressing enemy air defenses : report to the Secretary of Defense. Washington, D.C. (P.O. Box 37050, Washington 20013): U.S. General Accounting Office, 2002.

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25

Office, General Accounting. Electronic warfare: Comprehensive strategy needed for suppressing enemy air defenses : report to congressional requesters. Washington, D.C. (P.O. Box 37050, Washington 20013): U.S. General Accounting Office, 2001.

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26

Office, General Accounting. Electronic warfare: Costly radar warning receiver duplication continues : report to the Chairman, Legislation and National Security Subcommittee, Committee on Government Operations, House of Representatives. Washington, D.C: The Office, 1993.

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27

Office, General Accounting. Electronic warfare: The Army can reduce its risks in developing new radar countermeasures system : report to the Secretary of Defense. Washington, D.C. (P.O. Box 37050, Washington 20013): U.S. General Accounting Office, 2001.

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28

Office, General Accounting. Electronic warfare: Need to strengthen controls over Air Force jammer programs : report to the chairman, Committee on Armed Services, House of Representatives. Washington, D.C: The Office, 1990.

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29

Office, General Accounting. Electronic warfare: Phased approach to infrared upgrades would reduce risk to helicopters : report to the chairman, Subcommittee on Military Research and Development, Committee on Armed Services, House of Representatives. Washington, D.C. (P.O. Box 37050, Washington, D.C. 20013): The Office, 2000.

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30

Green, Stuart, Robert G. Zamenhof, and Denise E. Delahunty. Radiation measurement. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0004.

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The ability to make accurate and reproducible measurements requires a detailed knowledge of radiation detection mechanisms, quantities to be measured, basic measurement techniques, and assessment of measurement uncertainties. The chapter begins with an overview of the operational dose quantities and the mechanisms by which measurements are traced to a suitable primary standard. This is followed by some tips on detector selection for both dose rate and contamination applications, before a more detailed description of the basic functional characteristics of gas detectors, scintillation detectors, and semiconductor detector. In each case, suggestions are made on typical areas of use, limitations of performance along with practical examples. Detector resolution issues are discussed for active detectors before a brief overview of passive detector systems including film (photographic and radiochromic) and thermoluminescent dosimetry. The chapter concludes with some common issues in practical measurement and describes the role and importance of the annual instrument test.
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31

James, R. B., T. E. Schlesinger, Paul Siffert, and Larry Franks. Semiconductors for Room-Temperature Radiation Detector Applications: Volume 302. University of Cambridge ESOL Examinations, 2014.

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32

B, James R., and Symposium on Semiconductors for Room-Temperature Radiation Detector Applications (1st : 1993 : San Francisco, Calif.), eds. Semiconductors for room-temperature radiation detector applications: Symposium held April 12-16, 1993, San Francisco, California, U.S.A. Pittsburgh, Pa: Materials Research Society, 1993.

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33

James, R. B. (Ralph B.), Materials Research Society Meeting, and Symposium on Semiconductors for Room-Temperature Radiation Detector Applications (2nd : 1997 : Boston, Mass.), eds. Semiconductors for room-temperature radiation detector applications II: Symposium held December 1-5, 1997, Boston, Massachusetts, U.S.A. Warrendale, Pa: Materials Research Society, 1997.

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34

James, R. B., T. E. Schlesinger, and Paul Siffert. Semiconductors for Room-Temperature Radiation Detector Applications: Symposium Held April 12-16, 1993, San Francisco, California, U.S.A. (Materials Research Society Symposium Proceedings). Materials Research Society, 1993.

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35

Kolanoski, Hermann, and Norbert Wermes. Particle Detectors. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198858362.001.0001.

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The book describes the fundamentals of particle detectors in their different forms as well as their applications, presenting the abundant material as clearly as possible and as deeply as needed for a thorough understanding. The target group for the book are both, students who want to get an introduction or wish to deepen their knowledge on the subject as well as lecturers and researchers who intend to extent their expertise. The book is also suited as a preparation for instrumental work in nuclear, particle and astroparticle physics and in many other fields (addressed in chapter 2). The detection of elementary particles, nuclei and high-energetic electromagnetic radiation, in this book commonly designated as ‘particles’, proceeds through interactions of the particles with matter. A detector records signals originating from the interactions occurring in or near the detector and (in general) feeds them into an electronic data acquisition system. The book describes the various steps in this process, beginning with the relevant interactions with matter, then proceeding to their exploitation for different detector types like tracking detectors, detectors for particle identification, detectors for energy measurements, detectors in astroparticle experiments, and ending with a discussion of signal processing and data acquisition. Besides the introductory and overview chapters (chapters 1 and 2), the book is divided into five subject areas: – fundamentals (chapters 3 to 5), – detection of tracks of charged particles (chapters 6 to 9), – phenomena and methods mainly applied for particle identification (chapters 10 to 14), – energy measurement (accelerator and non-accelerator experiments) (chapters 15, 16), – electronics and data acquisition (chapters 17 and 18). Comprehensive lists of literature, keywords and abbreviations can be found at the end of the book.
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36

Mass.) Materials Research Society Meeting (1997 Boston. Semiconductors for Room-Temperature Radiation Detector Applications II: Symposium Held December 1-5, 1997, Boston, Massachusetts, U.S.A (Materials Research Society Symposia Proceedings, V. 487.). Materials Research Society, 1998.

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37

Barber, H. Bradford, Hans Roehrig, and Douglas Wagenaar. Medical Applications of Radiation Detectors. SPIE, 2011.

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38

Barber, H. Bradford, and Hans Roehrig. Medical Applications of Radiation Detectors II. SPIE, 2013.

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39

Barber, H. Bradford, and Gary Grim. Radiation Detectors: Systems and Applications XVI. SPIE, 2015.

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40

Semiconductor Radiation Detectors: Technology and Applications. Taylor & Francis Group, 2017.

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41

Barber, H. Bradford, Hans Roehrig, and Lars Furenlid. Medical Applications of Radiation Detectors IV. SPIE, 2014.

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42

Sauli, Fabio. Gaseous Radiation Detectors: Fundamentals and Applications. Cambridge University Press, 2014.

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43

Barber, H. Bradford, Hans Roehrig, and Lars Furenlid. Medical Applications of Radiation Detectors V. SPIE, 2015.

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44

Barber, H. Bradford, and Gary Grim. Radiation Detectors: Systems and Applications XV. SPIE, 2014.

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45

Barber, H. Bradford, Gary P. Grim, and Lars R. Furenlid. Radiation Detectors: Systems and Applications XVII. SPIE, 2017.

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46

Awadalla, Salah. Solid-State Radiation Detectors: Technology and Applications. Taylor & Francis Group, 2017.

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47

Awadalla, Salah. Solid-State Radiation Detectors: Technology and Applications. Taylor & Francis Group, 2017.

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48

Awadalla, Salah. Solid-State Radiation Detectors: Technology and Applications. Taylor & Francis Group, 2017.

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49

Awadalla, Salah. Solid-State Radiation Detectors: Technology and Applications. Taylor & Francis Group, 2017.

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50

Solid-State Radiation Detectors: Technology and Applications. Taylor & Francis Group, 2015.

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