Handbook of Radioactivity Analysis (4th Ed.) Volume 2: Radioanalytical Applications
Coordonnateur : F. L'Annunziata Michael
Users will find the latest advances in the applications of radioactivity analysis across various fields, including environmental monitoring, radiochemical standardization, high-resolution beta imaging, automated radiochemical separation, nuclear forensics, and more.
2. Environmental Liquid Scintillation Analysis
3. Analysis of Environmental Radionuclides
4. Radioactive Aerosol Analysis
5. Marine Radioactivity Analysis
6. Cherenkov Counting
7. Radionuclide Standardization
8. Radioactivity Counting Statistics
9. High-Resolution Beta Imaging
10. Flow-Cell Radionuclide Analysis
11. Automated Radiochemical Separation, Analysis and Sensing
12. Analytical Techniques in Nuclear Safeguards
13. Nuclear Forensics
Appendix A: Table of Radioactive Isotopes
Appendix B. Particle Range-Energy Correlations
Students and laboratory researchers in the fields of nuclear chemistry, nuclear physics, radioecology, nuclear power, nuclear safeguards and forensics, synchrotron radiation, radiation protection, nuclear medicine
- Spans two volumes, Radiation Physics and Detectors and Radioanalytical Applications
- Includes a new chapter on the analysis of environmental radionuclides
- Provides the latest advances in the applications of liquid and solid scintillation analysis, alpha- and gamma spectrometry, mass spectrometric analysis, Cherenkov counting, flow-cell radionuclide analysis, radionuclide standardization, aerosol analysis, high-resolution beta imaging techniques, analytical techniques in nuclear forensics, and nuclear safeguards
- Describes the timesaving techniques of computer-controlled automatic separation and activity analysis of radionuclides
- Provides an extensive table of the radiation characteristics of most radionuclides of interest for the radioanalytical chemist
Date de parution : 03-2020
Ouvrage de 1074 p.
21.4x27.6 cm
Thèmes de Handbook of Radioactivity Analysis :
Mots-clés :
Environmental Radioactivity Monitoring; Environmental Liquid Scintillation; Environmental Radionuclides; Aerosols; Marine Radioactivity; Cherenkov Counting; Radionuclide Standardization; Radioactivity Counting Statistics; High-Resolution Beta Imaging; Flow-Cell Radionuclide Analysis; Automated Radiochemical Separation; Nuclear Safeguards; Nuclear Forensics; Radioactive Isotopes; Particle Range-Energy Correlations