Radiation detection and measurement / Glenn F. Knoll

Includes bibliographical references and index.

Machine generated contents note: Chapter 1 Radiation Sources -- I. Units And Definitions -- Ii. Fast Electron Sources -- Iii. Heavy Charged Particle Sources -- Iv. Sources Of Electromagnetic Radiation -- V. Neutron Sources -- Chapter 2 Radiation Interactions -- I. Interaction Of Heavy Charged Particles -- Ii. Interaction Of Fast Electrons -- Iii. Interaction Of Gamma Rays -- Iv. Interaction Of Neutrons -- V. Radiation Exposure And Dose -- Chapter 3 Counting Statistics And Error Prediction -- I. Characterization Of Data -- Ii. Statistical Models -- Iii. Applications Of Statistical Models -- Iv. Error Propagation -- V. Optimization Of Counting Experiments -- Vi. Limits Of Detectability -- Vii. Distribution Of Time Intervals -- Chapter 4 General Properties Of Radiation Detectors -- <st1:place w:st="on">I.</st1:place> Simplified Detector Model -- Ii. Modes Of Detector Operation -- Iii. Pulse Height Spectra -- Iv. Counting Curves And Plateaus -- V. Energy Resolution -- Vi. Detection Efficiency -- Vii. Dead Time -- Chapter 5 Ionization Chambers -- I. The Ionization Process In Gases -- Ii. Charge Migration And Collection -- Iii. Design And Operation Of Dc Ion Chambers -- Iv. Radiation Dose Measurement With Ion Chambers -- V. Applications Of Dc Ion Chambers -- Vi. Pulse Mode Operation -- Chapter 6 Proportional Counters -- I. Gas Multiplication -- Ii. Design Features Of Proportional Counters -- Iii. Proportional Counter Performance -- Iv. Detection Efficiency And Counting Curves -- V. Variants Of The Proportional Counter Design -- Vi. Micropattern Gas Detectors -- Chapter 7 Geiger-Mueller Counters -- I. The Geiger Discharge -- Ii. Fill Gases -- Iii. Quenching -- Iv. Time Behavior -- V. The Geiger Counting Plateau -- Vi. Design Features -- Vii. Counting Efficiency -- Viii. Time-To-First-Count Method -- Ix. G-M Survey Meters -- Chapter 8 Scintillation Detector Principles -- I. Organic Scintillators -- Ii. Inorganic Scintillators -- Iii. Light Collection And Scintillator Mounting -- Chapter 9 Photomultiplier Tubes And Photodiodes -- I. Introduction -- Ii. The Photocathode -- Iii. Electron Multiplication -- Iv. Photomultiplier Tube Characteristics -- V. Ancillary Equipment Required With Photomultiplier Tubes -- Vi. Photodiodes As Substitutes For Photomultiplier Tubes -- Vii. Scintillation Pulse Shape Analysis -- Viii. Hybrid Photomultiplier Tubes -- Ix. Position-Sensing Photomultiplier Tubes -- X. Photoionization Detectors -- Chapter 10 Radiation Spectroscopy With Scintillators -- I. General Considerations In Gamma-Ray Spectroscopy -- Ii. Gamma-Ray Interactions -- Iii. Predicted Response Functions -- Iv. Properties Of Scintillation Gamma-Ray Spectrometers -- V. Response Of Scintillation Detectors To Neutrons -- Vi. Electron Spectroscopy With Scintillators -- Vii. Specialized Detector Configurations Based On Scintillation -- Chapter 11 Semiconductor Diode Detectors -- I. Semiconductor Properties -- Ii. The Action Of Ionizing Radiation In Semiconductors -- Iii. Semiconductors As Radiation Detectors -- Iv. Semiconductor Detector Configurations -- V. Operational Characteristics -- Vi. Applications Of Silicon Diode Detectors -- Chapter 12 Germanium Gamma-Ray Detectors -- I. General Considerations -- Ii. Configurations Of Germanium Detectors -- Iii. Germanium Detector Operational Characteristics -- Iv. Gamma-Ray Spectroscopy With Germanium Detectors -- Chapter 13 Other Solid-State Detectors -- I. Lithium-Drifted Silicon Detectors -- Ii. Semiconductor Materials Other Than Silicon Or Germanium -- Iii. Avalanche Detectors -- Iv. Photoconductive Detectors -- V. Position-Sensitive Semiconductor Detectors -- Chapter 14 Slow Neutron Detection Methods -- I. Nuclear Reactions Of Interest In Neutron Detection -- Ii. Detectors Based On The Boron Reaction -- Iii. Detectors Based On Other Conversion Reactions -- Iv. Reactor Instrumentation -- Chapter 15 Fast Neutron Detection And Spectroscopy -- I. Counters Based On Neutron Moderation -- Ii. Detectors Base

"This is the resource that engineers turn to in the study of radiation detection. The fourth edition takes into account the technical developments that continue to enhance the instruments and techniques available for the detection and spectroscopy of ionizing radiation. New coverage is presented on ROC curves, micropattern gas detectors, new sensors for scintillation light, and the excess noise factor. Revised discussions are also included on TLDs and cryogenic spectrometers, radiation backgrounds, and the VME standard. Engineers will gain a strong understanding of the field with this updated book."-- Provided by publisher.

Dawson