Detectors in Particle Physics
A Modern Introduction
Author(s)
Viehhauser, Georg
Weidberg, Tony
Collection
SCOAP3 for BooksLanguage
EnglishAbstract
This textbook provides an accessible yet comprehensive introduction to detectors in particle physics. It emphasises the core physics principles, enabling a deeper understanding of the subject for further and more advanced studies. In addition to the discussion of the underlying detector physics, another aspiration of this book is to introduce the reader to practically important aspects of particle detectors, like electronics, alignment, calibration and simulation of particle detectors. Case studies of the various applications of detectors in particle physics are provided. The primary audience is graduate students in particle or nuclear physics, in addition to advanced undergraduate students in physics. Key Features: Provides an accessible yet thorough discussion of the basic physics principles needed to understand how particle detectors work. Presents applications of the basic physics concepts to examples of modern detectors. Discusses practically important aspects like electronics, alignment, calibration and simulation of particle detectors. Contains exercises for each chapter to further understanding. For more information and errata please see the authors companion webpage https://ppdetectors.web.ox.ac.uk/ This webpage also allows instructors to request a copy of the solutions manual. This eBook was published Open Access with funding support from the Sponsoring Consortium for Open Access Publishing in Particle Physics (SCOAP3).
Keywords
nuclear; systems; physics; astrophysics; satellite; medical physics; accelerators; instrumentation; CERN; ATLAS; TextbookDOI
10.1201/9781003287674ISBN
9781003861577, 9781003861638, 9781032246581, 9781003287674, 9781003861577Publisher
Taylor & FrancisPublisher website
https://taylorandfrancis.com/Publication date and place
2024Grantor
Imprint
CRC PressClassification
Life sciences: general issues
Condensed matter physics (liquid state and solid state physics)
Particle and high-energy physics
Atomic and molecular physics
Astrophysics
Medical physics