This book is a self-contained compendium examining all types of semiconductors and how they can be used in radiation detection applications. It is suitable for graduate students and established researchers in this and related fields.
This book is a self-contained compendium examining all types of semiconductors and how they can be used in radiation detection applications. It is suitable for graduate students and established researchers in this and related fields.
Dr. Alan Owens holds an undergraduate honours degree in physics and physical electronics and earned his doctorate in astrophysics from the University of Durham, United Kingdom. He spent over 35 years engaged in the design and construction of novel detection systems for X- and gamma-ray astronomy, mostly as a staff physicist at the European Space Agency's European Space Research and Technology Centre (ESTEC) in the Netherlands and presently as a Senior Advisor at the Institute of Experimental and Applied Physics in Prague in the Czech Republic. Dr. Owens has previously authored Compound Semiconductor Radiation Detector (CRC Press, 2012). He also holds an honorary senior lectureship in space science at the University of Leicester, United Kingdom. Dr. Owens is currently involved in the development and exploitation of new technologies for space applications. Much of this work revolves around compound semiconductors for radiation detection and measurement, which by its very nature involves materials and systems at a low maturity level. Consequently, he has been involved in all aspects of a systematic and long-term program on material assessment, production, processing, detector fabrication and characterization for a large number of compound semiconductors.
Inhaltsangabe
1. Introduction to Radiation and Its Detection: An Historical Perspective 2. Semiconductors 3. Crystal Structure 4. Growth Techniques 5. Contacting Systems 6. Detector Fabrication 7. Detector Characterization 8. Radiation Detection and Measurement 9. Materials Used for General Radiation Detection 10. Current Materials Used for Neutron Detection 11. Performance Limiting Factors 12. Improving Performance 13. Future Directions in Radiation Detection Appendix A: Supplementary Reference Material and Further Reading List Appendix B: Table of Physical Constants Appendix C: Units and Conversions Appendix D: Periodic Table of the Elements Appendix E: Properties of the Elements Appendix F: General Properties of Semiconducting Materials Appendix G: Radiation Environments Appendix H: Table of Radioactive Calibration Sources
1. Introduction to Radiation and Its Detection: An Historical Perspective 2. Semiconductors 3. Crystal Structure 4. Growth Techniques 5. Contacting Systems 6. Detector Fabrication 7. Detector Characterization 8. Radiation Detection and Measurement 9. Materials Used for General Radiation Detection 10. Current Materials Used for Neutron Detection 11. Performance Limiting Factors 12. Improving Performance 13. Future Directions in Radiation Detection Appendix A: Supplementary Reference Material and Further Reading List Appendix B: Table of Physical Constants Appendix C: Units and Conversions Appendix D: Periodic Table of the Elements Appendix E: Properties of the Elements Appendix F: General Properties of Semiconducting Materials Appendix G: Radiation Environments Appendix H: Table of Radioactive Calibration Sources
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