Optically Stimulated Luminescence
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Opis: Optically Stimulated Luminescence - Eduardo G. Yukihara, Stephen W.S. McKeever

Optically stimulated luminescence has developed into one of the leading optical techniques for the measurement and detection of ionizing radiation. This text covers, in a readable manner, advanced modern applications of the technique, how it can play a useful role in different areas of dosimetry and how to approach the challenges presented when working with optically stimulated luminescence. The six chapters are as follows: Introduction, including a short history of OSL and details of successful applications Theory and Practical Aspects Personal Dosimetry Space Dosimetry Medical Dosimetry Other Applications and Concepts, including retrospective and accident dosimetry, environmental monitoring and UV dosimetry Throughout the book, the underlying theory is discussed on an as-needed basis for a complete understanding of the phenomena, but with an emphasis of the practical applications of the technique. The authors also give background information and relevant key references on each method, inviting the reader to explore deeper into the subject independently. Postgraduates, researchers, and those involved with radiation dosimetry will find this book particularly useful. The material is both relevant and accessible for both specialists and those new to the field, therefore is fundamental to any academic interested in modern advances of the subject. "In summary, the authors have done a commendable job of reviewing the recent literature and bringing it out in a form of a book. The review is comprehensive that is well written and would be useful to the intended audience of not only students or postdoctoral fellows but also researchers and the dosimetry community." (Radiation Protection Dosimetry, 16 November 2011)Preface. Acknowledgments. Disclaimer. List of Acronyms. 1 Introduction. 1.1 A Short History of Optically Stimulated Luminescence. 1.2 Brief Description of Successful Applications. 1.2.1 Personal. 1.2.2 Space. 1.2.3 Medical. 1.2.4 Security. 1.3 The Future. 2 Theory and Practical Aspects. 2.1 Introduction. 2.2 Basic Aspects of the OSL Phenomenon. 2.2.1 Energy Levels in Perfect Crystals. 2.2.2 Defects in the Crystal. 2.2.3 Excitation of the Crystal by Ionizing Radiation. 2.2.4 Trapping and Recombination at Defect Levels. 2.2.5 Thermal Stimulation of Trapped Charges. 2.2.6 Optical Stimulation of Trapped Charges. 2.2.7 The Luminescence Process. 2.2.8 Rate Equations for OSL and TL Processes. 2.2.9 Temperature Dependence of the OSL Signal. 2.2.10 Other OSL Models. 2.3 OSL Readout. 2.3.1 Basic Elements of an OSL Reader. 2.3.2 Stimulation Modalities. 2.4 Instrumentation. 2.4.1 Light Sources. 2.4.2 Light Detectors. 2.4.3 Optical Filters. 2.4.4 Light Collection. 2.4.5 Sample Heaters. 2.5 Available OSL Readers. 2.5.1 Experimental Arrangements. 2.5.2 Automated Research Readers. 2.5.3 Commercial Dosimetry Readers. 2.5.4 Optical Fiber Systems. 2.5.5 Imaging Systems. 2.5.6 Portable OSL Readers. 2.6 Complementary Techniques. 2.6.1 OSL Emission and Stimulation Spectrum. 2.6.2 Lifetime and Time-Resolved OSL Measurements. 2.6.3 Correlations Between OSL and TL. 2.6.4 Other Phenomena. 2.7 Overview of OSL Materials. 2.7.1 Artificial Materials. 2.7.2 Natural Materials. 2.7.3 Electronic Components. 2.7.4 Other OSL Materials and Material Needs. 3 Personal Dosimetry. 3.1 Introduction. 3.2 Quantities of Interest. 3.2.1 Absorbed Dose and Other Physical Quantities. 3.2.2 Protection Quantities. 3.2.3 Operational Quantities. 3.3 Dosimetry Considerations. 3.3.1 Definitions. 3.3.2 Dose Calculation Algorithm. 3.3.3 Reference Calibration Fields for Personal and Area Dosimeters. 3.3.4 Uncertainty Analysis and Expression of Uncertainty. 3.4 Detectors. 3.4.1 General Characteristics. 3.4.2 Al 2 O 3 :C Detectors. 3.4.3 BeO Detectors. 3.5 Dosimetry Systems. 3.5.1 Luxel+ Dosimetry System. 3.5.2 InLight Dosimetry System. 3.6 Neutron-Sensitive OSL Detectors. 3.6.1 Development of Neutron-Sensitive OSL Detectors. 3.6.2 Properties of OSLN Detectors. 3.6.3 Ionization Density Effects. 4 Space Dosimetry. 4.1 Introduction. 4.2 Space Radiation Environment. 4.2.1 Galactic Cosmic Rays (GCR). 4.2.2 Earth's Radiation Belts (ERB). 4.2.3 Solar Particle Events (SPEs). 4.2.4 Secondary Radiation. 4.3 Quantities of Interest. 4.3.1 Absorbed Dose, D . 4.3.2 Dose Equivalent, H . 4.3.3 Equivalent Dose, HT . 4.3.4 Effective Dose, E . 4.3.5 Gray-Equivalent, GT . 4.4 Health Risk. 4.5 Evaluation of Dose in Space Radiation Fields Using OSLDs (and TLDs). 4.5.1 The Calibration Problem for Space Radiation Fields. 4.5.2 Thermoluminescence, TL. 4.5.3 Optically Stimulated Luminescence, OSL. 4.5.4 OSL Response in Mixed Fields. 4.6 Applications. 4.6.1 Use of OSLDs (and TLDs) in Space-Radiation Fields. 4.6.2 Example Applications. 4.7 Future Directions. 5 Medical Dosimetry. 5.1 Introduction. 5.2 Radiation Fields in Medical Dosimetry. 5.2.1 Diagnostic Radiology. 5.2.2 Radiation Therapy and Radiosurgery. 5.2.3 Proton and Heavy-Ion Therapy. 5.3 Practical OSL Aspects Applied to Medical Dosimetry. 5.3.1 A Proposed Formalism. 5.3.2 Calibration and Readout Protocols. 5.3.3 A Checklist for Reporting OSL Results. 5.4 Optical-Fiber OSL Systems for Real-time Dosimetry. 5.4.1 Basic Concept. 5.4.2 Optical-Fiber OSL System Designs and Materials. 5.4.3 Readout Approaches. 5.5 Properties of Al2O3:C OSL Detectors for Medical Applications. 5.5.1 Influence Factors and Correction Factors. 5.5.2 Correction Factors for Beam Quality. 5.6 Clinical Applications. 5.6.1 Quality Assurance in External Beam Radiation Therapy. 5.6.2 Brachytherapy. 5.6.3 Measurement of Dose Profiles in X-ray Computed Tomography (CT). 5.6.4 Proton Therapy. 5.6.5 Fluoroscopy (Patient and Staff Dosimetry). 5.6.6 Mammography. 5.6.7 Out-of-field Dose Assessment in Radiotherapy. 5.6.8 Dose Mapping. 5.6.9 Final Remarks on Clinical Applications. 6 Other Applications and Concepts. 6.1 Introduction. 6.2 Retrospective and Accident Dosimetry. 6.2.1 Basic Considerations. 6.2.2 Methodological Aspects. 6.2.3 Building Materials. 6.2.4 Household Materials. 6.2.5 Electronic Components. 6.2.6 Dental Enamel and Dental Ceramics. 6.3 Environmental Monitoring. 6.4 UV Dosimetry. 6.5 Integrated Sensors. 6.6 Passive/Active Devices. 6.7 Other Potential Security Applications. References. Index.


Szczegóły: Optically Stimulated Luminescence - Eduardo G. Yukihara, Stephen W.S. McKeever

Tytuł: Optically Stimulated Luminescence
Autor: Eduardo G. Yukihara, Stephen W.S. McKeever
Producent: John Wiley
ISBN: 9780470697252
Rok produkcji: 2011
Ilość stron: 378
Oprawa: Twarda
Waga: 0.83 kg


Recenzje: Optically Stimulated Luminescence - Eduardo G. Yukihara, Stephen W.S. McKeever
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Optically Stimulated Luminescence

,

Optically stimulated luminescence has developed into one of the leading optical techniques for the measurement and detection of ionizing radiation. This text covers, in a readable manner, advanced modern applications of the technique, how it can play a useful role in different areas of dosimetry and how to approach the challenges presented when working with optically stimulated luminescence. The six chapters are as follows: Introduction, including a short history of OSL and details of successful applications Theory and Practical Aspects Personal Dosimetry Space Dosimetry Medical Dosimetry Other Applications and Concepts, including retrospective and accident dosimetry, environmental monitoring and UV dosimetry Throughout the book, the underlying theory is discussed on an as-needed basis for a complete understanding of the phenomena, but with an emphasis of the practical applications of the technique. The authors also give background information and relevant key references on each method, inviting the reader to explore deeper into the subject independently. Postgraduates, researchers, and those involved with radiation dosimetry will find this book particularly useful. The material is both relevant and accessible for both specialists and those new to the field, therefore is fundamental to any academic interested in modern advances of the subject. "In summary, the authors have done a commendable job of reviewing the recent literature and bringing it out in a form of a book. The review is comprehensive that is well written and would be useful to the intended audience of not only students or postdoctoral fellows but also researchers and the dosimetry community." (Radiation Protection Dosimetry, 16 November 2011)Preface. Acknowledgments. Disclaimer. List of Acronyms. 1 Introduction. 1.1 A Short History of Optically Stimulated Luminescence. 1.2 Brief Description of Successful Applications. 1.2.1 Personal. 1.2.2 Space. 1.2.3 Medical. 1.2.4 Security. 1.3 The Future. 2 Theory and Practical Aspects. 2.1 Introduction. 2.2 Basic Aspects of the OSL Phenomenon. 2.2.1 Energy Levels in Perfect Crystals. 2.2.2 Defects in the Crystal. 2.2.3 Excitation of the Crystal by Ionizing Radiation. 2.2.4 Trapping and Recombination at Defect Levels. 2.2.5 Thermal Stimulation of Trapped Charges. 2.2.6 Optical Stimulation of Trapped Charges. 2.2.7 The Luminescence Process. 2.2.8 Rate Equations for OSL and TL Processes. 2.2.9 Temperature Dependence of the OSL Signal. 2.2.10 Other OSL Models. 2.3 OSL Readout. 2.3.1 Basic Elements of an OSL Reader. 2.3.2 Stimulation Modalities. 2.4 Instrumentation. 2.4.1 Light Sources. 2.4.2 Light Detectors. 2.4.3 Optical Filters. 2.4.4 Light Collection. 2.4.5 Sample Heaters. 2.5 Available OSL Readers. 2.5.1 Experimental Arrangements. 2.5.2 Automated Research Readers. 2.5.3 Commercial Dosimetry Readers. 2.5.4 Optical Fiber Systems. 2.5.5 Imaging Systems. 2.5.6 Portable OSL Readers. 2.6 Complementary Techniques. 2.6.1 OSL Emission and Stimulation Spectrum. 2.6.2 Lifetime and Time-Resolved OSL Measurements. 2.6.3 Correlations Between OSL and TL. 2.6.4 Other Phenomena. 2.7 Overview of OSL Materials. 2.7.1 Artificial Materials. 2.7.2 Natural Materials. 2.7.3 Electronic Components. 2.7.4 Other OSL Materials and Material Needs. 3 Personal Dosimetry. 3.1 Introduction. 3.2 Quantities of Interest. 3.2.1 Absorbed Dose and Other Physical Quantities. 3.2.2 Protection Quantities. 3.2.3 Operational Quantities. 3.3 Dosimetry Considerations. 3.3.1 Definitions. 3.3.2 Dose Calculation Algorithm. 3.3.3 Reference Calibration Fields for Personal and Area Dosimeters. 3.3.4 Uncertainty Analysis and Expression of Uncertainty. 3.4 Detectors. 3.4.1 General Characteristics. 3.4.2 Al 2 O 3 :C Detectors. 3.4.3 BeO Detectors. 3.5 Dosimetry Systems. 3.5.1 Luxel+ Dosimetry System. 3.5.2 InLight Dosimetry System. 3.6 Neutron-Sensitive OSL Detectors. 3.6.1 Development of Neutron-Sensitive OSL Detectors. 3.6.2 Properties of OSLN Detectors. 3.6.3 Ionization Density Effects. 4 Space Dosimetry. 4.1 Introduction. 4.2 Space Radiation Environment. 4.2.1 Galactic Cosmic Rays (GCR). 4.2.2 Earth's Radiation Belts (ERB). 4.2.3 Solar Particle Events (SPEs). 4.2.4 Secondary Radiation. 4.3 Quantities of Interest. 4.3.1 Absorbed Dose, D . 4.3.2 Dose Equivalent, H . 4.3.3 Equivalent Dose, HT . 4.3.4 Effective Dose, E . 4.3.5 Gray-Equivalent, GT . 4.4 Health Risk. 4.5 Evaluation of Dose in Space Radiation Fields Using OSLDs (and TLDs). 4.5.1 The Calibration Problem for Space Radiation Fields. 4.5.2 Thermoluminescence, TL. 4.5.3 Optically Stimulated Luminescence, OSL. 4.5.4 OSL Response in Mixed Fields. 4.6 Applications. 4.6.1 Use of OSLDs (and TLDs) in Space-Radiation Fields. 4.6.2 Example Applications. 4.7 Future Directions. 5 Medical Dosimetry. 5.1 Introduction. 5.2 Radiation Fields in Medical Dosimetry. 5.2.1 Diagnostic Radiology. 5.2.2 Radiation Therapy and Radiosurgery. 5.2.3 Proton and Heavy-Ion Therapy. 5.3 Practical OSL Aspects Applied to Medical Dosimetry. 5.3.1 A Proposed Formalism. 5.3.2 Calibration and Readout Protocols. 5.3.3 A Checklist for Reporting OSL Results. 5.4 Optical-Fiber OSL Systems for Real-time Dosimetry. 5.4.1 Basic Concept. 5.4.2 Optical-Fiber OSL System Designs and Materials. 5.4.3 Readout Approaches. 5.5 Properties of Al2O3:C OSL Detectors for Medical Applications. 5.5.1 Influence Factors and Correction Factors. 5.5.2 Correction Factors for Beam Quality. 5.6 Clinical Applications. 5.6.1 Quality Assurance in External Beam Radiation Therapy. 5.6.2 Brachytherapy. 5.6.3 Measurement of Dose Profiles in X-ray Computed Tomography (CT). 5.6.4 Proton Therapy. 5.6.5 Fluoroscopy (Patient and Staff Dosimetry). 5.6.6 Mammography. 5.6.7 Out-of-field Dose Assessment in Radiotherapy. 5.6.8 Dose Mapping. 5.6.9 Final Remarks on Clinical Applications. 6 Other Applications and Concepts. 6.1 Introduction. 6.2 Retrospective and Accident Dosimetry. 6.2.1 Basic Considerations. 6.2.2 Methodological Aspects. 6.2.3 Building Materials. 6.2.4 Household Materials. 6.2.5 Electronic Components. 6.2.6 Dental Enamel and Dental Ceramics. 6.3 Environmental Monitoring. 6.4 UV Dosimetry. 6.5 Integrated Sensors. 6.6 Passive/Active Devices. 6.7 Other Potential Security Applications. References. Index.

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Szczegóły: Optically Stimulated Luminescence - Eduardo G. Yukihara, Stephen W.S. McKeever

Tytuł: Optically Stimulated Luminescence
Autor: Eduardo G. Yukihara, Stephen W.S. McKeever
Producent: John Wiley
ISBN: 9780470697252
Rok produkcji: 2011
Ilość stron: 378
Oprawa: Twarda
Waga: 0.83 kg


Recenzje: Optically Stimulated Luminescence - Eduardo G. Yukihara, Stephen W.S. McKeever

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