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The Physics of Particle Detectors Dan Green (Fermilab, Batavia)

The Physics of Particle Detectors By Dan Green (Fermilab, Batavia)

The Physics of Particle Detectors by Dan Green (Fermilab, Batavia)


Summary

A comprehensive introduction to the physical principles and design of particle detectors, covering all major detector types in use today. Emphasis is placed on explaining the physical principles behind particle detection, showing how those principles are best utilised in real detectors. Exercises and detailed further reading lists are included.

The Physics of Particle Detectors Summary

The Physics of Particle Detectors by Dan Green (Fermilab, Batavia)

This text provides a comprehensive introduction to the physical principles and design of particle detectors, covering all major detector types in use today. The book begins with a reprise of the size and energy scales involved in different physical processes. It then considers non-destructive methods, including the photoelectric effect, photomultipliers, scintillators, Cerenkov and transition radiation, scattering and ionisation and the use of magnetic fields in drift and wire chambers. A complete chapter is devoted to silicon detectors. In the final part of the book, the author discusses destructive measurement techniques including Thompson and Compton scattering, Bremsstrahlung and calorimetry. Throughout the book, emphasis is placed on explaining the physical principles on which detection is based, and showing, by considering appropriate examples, how those principles are best utilised in real detectors. This approach also reveals the limitations that are intrinsic to different devices. Exercises and detailed further reading lists are included.

The Physics of Particle Detectors Reviews

'Green has written a valuable wide-ranging text in an original style, exploiting well his long experience. Since Rutherford, instrumentation of nuclear and particle physics experiments has been a significant inspiration to many in the field. This book provides an excellent starting point for those hoping to maintain this tradition.' G. Hall, Contemporary Physics

Table of Contents

Part I. Introduction: 1. Size, energy, cross section; Part II. Non-Destructive Measurements: Part II. A. Time and Velocity: 2. The photoelectric effect, photomultipliers, scintillators; 3. Cerenkov radiation; 4. Transition radiation; Part II. B. Scattering and Ionization: 5. Elastic EM scattering; 6. Ionization; Part II. C. Position and Momentum: 7. Magnetic fields; 8. Drift and diffusion in materials, wire chambers; 9. SI detectors; Part III. Destructive Measurements: Part III. A. Radiation: 10. Radiation and photon scattering; Part III. B. Energy Measurements: 11. EM Calorimetry; 12. Hadronic calorimetry; Part IV. The Complete Set of Measurements: 13. Summary; Appendices.

Additional information

NLS9780521675680
9780521675680
0521675685
The Physics of Particle Detectors by Dan Green (Fermilab, Batavia)
New
Paperback
Cambridge University Press
2005-07-14
376
N/A
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