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Thermally stimulated luminescence (TSL, also known as thermoluminescence) is a process in which a material emits light while being heated following excitation. Optically stimulated luminescence (OSL) is an analogous process in which a material emits light while being subject to optical stimulation. This research text will cover the state-of-the-art theory and applications in thermally and optically stimulated luminescence (TSL and OSL) following irradiation by ionizing radiation. The topics covered are interdisciplinary, spanning areas of materials science, condensed matter physics and radiation physics through the eyes of luminescence phenomena.
Key Features:
- Covers the state-of-the-art theory and applications in thermally and optically stimulated luminescence (TSL and OSL) following irradiation by ionizing radiation
- Includes the basic concepts of TSL and OSL and future directions of research
- Provides an updated, critical, in-depth, and informative review of the advances, failures and limitations
- Enables researchers to plan their research effectively and identify current important topics to improve their research
- Covers an interdisciplinary topic, spanning areas of materials science, condensed matter physics and radiation physics through the eyes of luminescence phenomena
1. General description of basic characteristics 2. Basic conduction band (CB)/valence band (VB) theory 3. Microdosimetric theory 4. The effects of ionisation density 5. Response to mixed radiation fields 6. Kinetic modelling of radiation effects 7. Optical absorption 8. Track structure theory 9. Optical excitation 10. Unexplained phenomena 11. Failures and limitations of current theories 12. Applications 13. Basic description of interaction of radiation in matter