This book describes the fundamentals of particle detectors as well as their applications. Detector development is an important part of nuclear, particle and astroparticle physics and through its applications in radiation imaging it paves the way for advancements in the biomedical and materials sciences.
This book describes the fundamentals of particle detectors as well as their applications. Detector development is an important part of nuclear, particle and astroparticle physics and through its applications in radiation imaging it paves the way for advancements in the biomedical and materials sciences.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hermann Kolanoski is Emeritus Professor of Physics at the Humboldt University Berlin and at the research centre DESY (Zeuthen). After having received his doctoral degree in Bonn he worked at universities in Stanford, Bonn and Dortmund before joining Humboldt University in 1995. His field of expertise is experimental particle and astroparticle physics. He currently participates in research with the IceCube Observatory at the South Pole and ATLAS at CERN. His work in detector development includes gaseous wire chambers, calorimeters, photon detectors, and trigger electronics as well as applications in medical physics. Norbert Wermes is Professor of Physics at the University of Bonn. His field of research is experimental particle physics and detector physics. He has conducted research with experiments at the particle physics research centres DESY (Hamburg), SLAC (Stanford), Fermilab (Chicago), KEK (Tsukuba), and CERN (Geneva). After graduating with a PhD in physics from the University of Bonn, he was a postdoc at Stanford University, and a CERN staff scientist. In 1989 he became a professor at the University of Heidelberg, before returning to Bonn in 1992. With his group, he currently carries out research with the experiments ATLAS (CERN) and Belle II (KEK). In detector physics, his focus is on semiconductor pixel detectors and microelectronics.
Inhaltsangabe
1: Introduction 2: Overview, history and concepts 3: Interactions of particles and matter 4: Movement of charge carriers in electric and magnetic fields 5: Signal formation by moving charges 6: Non-electronic detectors 7: Gas-filled detectors 8: Semiconductor detectors 9: Track reconstruction and momentum measurement 10: Photodetectors 11: Cherenkov detectors 12: Transition radiation detectors 13: Scintillation detectors 14: Particle identification 15: Calorimeters 16: Detectors for cosmic particles, neutrinos and exotic matter 17: Signal procesisng, readout and noise 18: Trigger and data acquisition systems
1: Introduction 2: Overview, history and concepts 3: Interactions of particles and matter 4: Movement of charge carriers in electric and magnetic fields 5: Signal formation by moving charges 6: Non-electronic detectors 7: Gas-filled detectors 8: Semiconductor detectors 9: Track reconstruction and momentum measurement 10: Photodetectors 11: Cherenkov detectors 12: Transition radiation detectors 13: Scintillation detectors 14: Particle identification 15: Calorimeters 16: Detectors for cosmic particles, neutrinos and exotic matter 17: Signal procesisng, readout and noise 18: Trigger and data acquisition systems
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