Principles of Radiation Interaction in Matter and Detection
The fourth edition of this book has been widely revised. It includes additional chapters and some sections are complemented with either new ones or an extension of their content. In this latest edition a complete treatment of the physics and properties of semiconductors is presented, covering transport phenomena in semiconductors, scattering mechanisms, radiation effects and displacement damages. Furthermore, this edition presents a comprehensive treatment of the Coulomb scattering on screened nuclear potentials resulting from electrons, protons, light- and heavy-ions — ranging from (very) low up to ultra-relativistic kinetic energies — and allowing one to derive the corresponding NIEL (non-ionizing energy-loss) doses deposited in any material. The contents are organized into two parts: Chapters 1 to 7 cover Particle Interactions and Displacement Damage while the remaining chapters focus on Radiation Environments and Particle Detection. This book can serve as reference for graduate students and final-year undergraduates and also as supplement for courses in particle, astroparticle, space physics and instrumentation. A section of the book is directed toward courses in medical physics. Researchers in experimental particle physics at low, medium, and high energy who are dealing with instrumentation will also find the book useful. Contents:Particle Interactions and Displacement Damage:IntroductionElectromagnetic Interaction of Charged Particles in MatterPhoton Interaction and Electromagnetic Cascades in MatterNuclear Interactions in MatterPhysics and Properties of Silicon SemiconductorTransport Phenomena in SemiconductorsRadiation Effects and Displacement Damage in SemiconductorsRadiation Environments and Particle Detection:Radiation Environments and Damage in SemiconductorsScintillating Media and Scintillator DetectorsSolid State DetectorsDisplacement Damages and Interactions in Semiconductor DevicesGas Filled ChambersPrinciples of Particle Energy DeterminationSuperheated Droplet (Bubble) Detectors and CDM SearchMedical Physics ApplicationsAppendices:General Properties and ConstantsMathematics and Statistics Readership: Researchers, academics, graduate students and professionals in accelerator, particle, astroparticle, space, applied and medical physics. Key Features:Exceptional large coverage of the different types of detectors used in particle and nuclear physics and their principles of detectionKeywords:Radiation Interaction in Matter;Solid State Detectors;Scintillator Detectors;Gas Filled Chamber Detectors;Energy Determination;Dark Matter;Double Beta Decay;Processes of Energy Deposition;Radiation Damages;Medical Physics Applications "The fourth edition has been extensively revised and offers additional chapters. It presents a comprehensive treatment of the Coulomb scattering on screened nuclear potentials resulting from electrons, positrons, protons, light- and heavy-ions and allowing one to derive the corresponding NIEL doses deposited in any material and compound, because of atomic displacements caused by the interaction." Professor Karel Kudela Institute of Experimental Physics