Handbook of Particle Detection and Imaging
Description
This handbook covers the fundamental principles of interactions of particles with matter and of most types of detectors used in many fields of physics, starting from particle physics, nuclear physics up to recent experiments for solid state physics.
In this second edition chapters are updated to include the most recent developments in detector physics and additional chapters on new types of detectors, like silicon photomultipliers, have been added. In addition the section about medical applications has been extended. All major detector types are described in detail by leading experts in these fields. It also gives deep insight into many applications from homeland security over radiation protection to a whole section about medical physics with strong emphasis on nuclear medicine. The book is suited to achieve a deep knowledge in the field of detector physics and imaging. It can also be used as a reference book to look up the working principles of a given detector type and to get an overview of state-of-the-art applications of the various detector types. It is also helpful for practitioners in nuclear medicine and radiology as it summarizes all detector types in this field and the basic working principles of these detectors. The area of radiation therapy is also covered in detail taking into account the most recent developments.More details
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Persons
Ivor Fleck was born in Hannover, Germany. He has studied physics at the Universities of Hannover and Munich and did his PhD at the University of Hamburg with the first data from the ZEUS experiment at DESY. He worked as a postdoc at the Universities of Glasgow and Tokyo and was a fellow at CERN before he went to Freiburg University, where he did his Habilitation. In 2005 he became Professor of Physics at the University of Siegen, Germany. He spent sabbaticals at the University of Cambridge and the University of Tokyo. Since 2015 he is Dean for Research of the School of Science and Technology at the University of Siegen and is Founding Chairman of the Center for Particle Physics Siegen.
He has worked at many of the large facilities for particle physics, namely DESY, CERN, KEK and Fermilab. His research fields are experimental particle physics and detector development. His analysis topics range from structure functions at ZEUS to search for Supersymmetry at OPAL and top quark properties at D0 and ATLAS. He also works on developing detector components for the ILD detector at the International Linear Collider (ILC) and the International Axion Observatory (IAXO).
Claus Grupen Universität Siegen, Siegen, Germany
Irène Buvat Unité Imagerie Moléculaire In Vivo, Orsay, France
Content
Interactions of Particles and Radiation with Matter
Electronics Part I
Electronics Part II
Data Analysis
Statistics
Particle Identification
Accelerators for Particle Physics
Synchrotron Radiation and FEL Instrumentation
Calibration of Radioactive Sources
Radiation Protection
Gaseous Detectors
Tracking Detectors
Photon Detectors
Neutrino Detectors
Scintillation Counters
Semiconductor Counters
Silicon Photomultiplyers
Gamma-Ray Detectors
Cherenkov Counters
Muon Spectrometers
Calorimeters
New Solid State Detectors
Radiation Damage Effects
Astrophysics and Space Instrumentation
Indirect Detection of Cosmic Rays
Gravitational wave detectors
Technology for Border Security
Homeland security
Accelerator Mass Spectrometry and its Applications in Archaeology, Geology, and
Environmental ResearchGeoscientific Applications of Particle Detection and Imaging Techniques with Special Focus on the Monitoring Clay Mineral Reactions
Particle Detectors Used in Isotope Ratio Mass Spectrometry, with Applications in Geology, Environmental Science and Nuclear Forensics
Particle Detectors in Materials Science
Spallation - Neutrons Beyond Nuclear FissionNeutron Detection
Instrumentation for Nuclear Fusion
The Use of Neutron Technology in Archaeological and Cultural Heritage Research
Radiation Detectors and Art
Radiation-Based Medical Imaging Techniques: An Overview
CT Imaging: Basics and New Trends
SPECT Imaging: Basics and New Trends
PET Imaging: Basics and New Trends
Image Reconstruction
multi imaging devices
Motion Compensation in Emission Tomography
Quantitative Image Analysis in Tomography
Compartmental Modeling in Emission
TomographyEvaluation and Image Quality in Radiation-Based Medical Imaging
Simulation of Medical Imaging Systems: Emission and Transmission Tomography
High-Resolution and Animal Imaging Instrumentation and Techniques
Imaging Instrumentation and Techniques for Precision Radiotherapy
Tumor Therapy with Ion Beams
Ion Beam profile measurements