Handbook of Particle Detection and Imaging

1. Front Matter

   Pages i-xxi

   PDF

2. Basic Principles of Detectors and Accelerators

   1. Front Matter

      Pages 1-1

      PDF

   2. Interactions of Particles and Radiation with Matter

      • Simon I. Eidelman, Boris A. Shwartz

      Pages 3-23

   3. Electronics Part I

      • Helmuth Spieler

      Pages 25-52

   4. Electronics Part II

      • Helmuth Spieler

      Pages 53-81

   5. Data Analysis

      • Günther Dissertori

      Pages 83-101

   6. Statistics

      • Glen Cowan

      Pages 103-124

   7. Particle Identification

      • Jürgen Engelfried

      Pages 125-137

   8. Accelerators for Particle Physics

      • Helmut Burkhardt

      Pages 139-158

   9. Synchrotron Radiation and FEL Instrumentation

      • Shaukat Khan, Klaus Wille

      Pages 159-185

   10. Calibration of Radioactive Sources

       • Dirk Arnold, Herbert Janßen

       Pages 187-199

   11. Radiation Protection

       • Claus Grupen

       Pages 201-235

3. Specific Types of Detectors

   1. Front Matter

      Pages 237-237

      PDF

   2. Gaseous Detectors

      • Maxim Titov

      Pages 239-264

   3. Tracking Detectors

      • Manfred Krammer, Winfried Mitaroff

      Pages 265-295

   4. Photon Detectors

      • Peter Križan

      Pages 297-311

   5. Neutrino Detectors

      • Franz von Feilitzsch, Jean-Côme Lanfranchi, Michael Wurm

      Pages 313-347

   6. Scintillation Counters

      • Zane W Bell

      Pages 349-375

   7. Semiconductor Counters

      • Douglas S. McGregor

      Pages 377-410

   8. Gamma-Ray Detectors

      • William L. Dunn, Douglas S. McGregor

      Pages 411-451

The handbook centers on detection techniques in the field of particle physics, medical imaging and related subjects. It is structured into three parts. The first one is dealing with basic ideas of particle detectors, followed by applications of these devices in high energy physics and other fields. In the last part the large field of medical imaging using similar detection techniques is described. The different chapters of the book are written by world experts in their field. Clear instructions on the detection techniques and principles in terms of relevant operation parameters for scientists and graduate students are given.Detailed tables and diagrams will make this a very useful handbook for the application of these techniques in many different fields like physics, medicine, biology and other areas of natural science.

• Applications of particle detectors
• Image reconstruction
• Instumentation for radiation detection
• Medical imaging
• Particle detection in geology
• Particle detectors
• Reference on particle detection

• Department of Physics, Siegen University, Emmy-Noether-Campus, Siegen, Germany

  Claus Grupen

• IMNC-UMR 8165 CNRS, Paris 7 and Paris 11 Universities, Orsay Campus, Orsay Cedex, France

  Irène Buvat

Claus Grupen, Universität Siegen born: September 19th, 1941 in Timmendorfer Strand, Germany Studies of mathematics and physics at the University of Kiel, Germany; degree of a high school teacher in 1966, Ph.D. in physics with research work on ’Electromagnetic Interactions of Cosmic Ray Muons’, University of Kiel 1970, Visiting Fellow of the Royal Society of England, University of Durham. Cooperation with Sir Arnold Wolfendale (later Astronomer Royal) on cosmic ray physics (1971/1972). Spokesperson of a cosmic ray experiment (muon spectra, charge ratio and interactions of muons) at DESY, Hamburg 1972 - 1973. Habilitation at the University of Siegen in physics with a thesis on ’Electromagnetic Interactions of High Energy Cosmic Ray Muons’ (1975) Radiation Officer at Siegen University since 1975; Honorary consultant for the Siegen fire brigade in matters of ’Radiation Safety’ since 1990 Member of the PLUTO-experiment at DESY working on DORIS and PETRA (1974 - 1987) on Electron-Positron Interactions Supernumerary professor of physics at Siegen University since 1978; full professor at Siegen since 1981. Special High Energy and Particle Physics Prize of the European Physical Society for the Discovery of the Gluon in 1979; awarded in 1995 (jointly with members of the JADE, Mark J, PLUTO and TASSO Collaborations) Dean of the physics department at Siegen University 1980/81; 1991 - 1993; and 2002 - 2006. Visiting professor at the University of Tokyo 1981 and 1985, doing cosmic ray work with Prof. Dr. Takashi Kitamura. Member of the ALEPH-Experiment (Electron-Positron Interactions at the world largest e+e− Collider LEP) at CERN (1984 - now). Member of the CosmoALEPH-Experiment (Underground muon physics with the ALEPH detector at CERN; 1990 - now). Member of the KASCADE-Grande and LOPES experiments at the Forschungszentrum Karlsruhe (KIT - Karlsruhe Institute of Technology; 2005 - now) Paid Associate at CERN 1990; 1994, and 2000 working on ALEPH. Directorof the ’Research Institute for Humanities and Social Science’ at Siegen University 1999 - 2001 retired: September 30, 2006 Irene Buvat, born July 21, 1966 1988 “Magistère Interuniversitaire de Physique”, cum laude Bachelor of Physics cum laude Ecole Normale Supérieure ULM Paris, France 1989 Graduated in Nuclear Physics, cum laude, Paris XI University, Orsay, France 1992 PhD in Nuclear Physics : “Scatter correction in scintigraphy” cum laude, Paris XI University, Orsay, France 1992 200 credit hours in Biology 1989-1992 Research fellow with Robert Di Paola, U66 INSERM, Institut Gustave Roussy, Villejuif, France 1993-1994 Research fellow with Andrew Todd-Pokropek, Department of Medical Physics and Bio-engineering, University College London, UK 1995-1996 Research fellow with Stephen Bacharach, Department of Nuclear Medicine, National Institutes of Health, Bethesda, MD 1996-2001 Research Scientist CNRS (Centre National de la Recherche Scientifique), INSERM Laboratory of Functional Imaging, Paris 2002-2005 Research Scientist CNRS (Centre National de la Recherche Scientifique), INSERM Laboratory of Functional Imaging, Paris, Head of the “Quantitative imaging of radiotracers” research group 2006-2007 Director of Research CNRS (Centre National de la Recherche Scientifique), INSERM Laboratory of Functional Imaging, Paris, Head of the “Quantitative imaging of radiotracers” research group 2008-now Director of Research CNRS (Centre National de la Recherche Scientifique), CNRS Laboratory of “Imaging and Modeling in Neurobiology and Cancerology”, Orsay, France, Head of the “Quantitative molecular imaging” research group AWARDS 2009 Rotblat medal awarded by the Editorial Board of “Physics in Medicine and Biology” for the citations prize to the authors of the original research paper that has received the most citations in the preceding five years (according to the Institute for Scientific Information). Awarded article: GATE: a simulation toolkitfor PET and SPECT, Jan et al, Phys. Med. Biol. 49 4543–61, 2004. 2002 Bronze medal awarded by the CNRS for outstanding accomplishments in medical imaging

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