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Physics and engineering of radiation detection /
Physics and Engineering of Radiation Detection presents an overview of the physics of radiation detection and its applications. It covers the origins and properties of different kinds of ionizing radiation, their detection and measurement, and the procedures used to protect people and the environmen...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam, Netherlands :
Elsevier,
2015.
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| Edición: | Second edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Physics and Engineering of Radiation Detection; Copyright Page; Dedication; Contents; Preface to the second edition; Preface to the first edition; 1 Properties and sources of radiation; 1.1 Types of radiation; 1.2 Waves or particles?; 1.3 Radioactivity and radioactive decay; 1.3.A Decay energy or Q-value; 1.3.B The decay equation; 1.3.C Composite radionuclides; 1.3.D Radioactive chain; 1.3.E Decay equilibrium; E.1 Secular equilibrium; E.2 Transient equilibrium; E.3 No equilibrium; 1.3.F Branching ratio; 1.3.G Units of radioactivity; 1.4 Activation; 1.5 Sources of radiation.
- 1.5.A Natural sourcesA. 1 Cosmic radiation sources; A.2 Terrestrial radiation sources; A.3 Internal radiation sources; 1.5.B Man-made sources; 1.6 General properties and sources of particles and waves; 1.6.A Photons; A.1 Sources of photons; X-ray machine; Synchrotron radiation; Laser; Gas lasers; Liquid lasers; Solid-state lasers; New developments; Radioactive sources of photons; 1.6.B Electrons; B.1 Sources of electrons; Electron gun; Radioactive sources of electrons; 1.6.C Positrons; C.1 Sources of positrons; Particle accelerators; Radioactive sources of positrons; 1.6.D Protons.
- 2.1.A Inverse square law2.1.B Cross section; 2.1.C Mean free path; 2.1.D Radiation length; 2.1.E Conservation laws; E.1 Conservation of energy; E.2 Conservation of momentum; E.3 Conservation of electrical charge; 2.2 Types of particle interactions; 2.2.A Elastic scattering; 2.2.B Inelastic scattering; 2.2.C Annihilation; 2.2.D Bremsstrahlung; 2.2.E Cherenkov radiation; 2.3 Interaction of photons with matter; 2.3.A Interaction mechanisms; A.1 Photoelectric effect; A.2 Compton scattering; A.3 Thompson scattering; A.4 Rayleigh scattering; A.5 Pair production.