Читать книгу Processing of Ceramics - Группа авторов - Страница 2

1  Cover

2  Title Page

3  Copyright Page

4  List of Contributors

5  Preface

6  1 Introduction 1.1 Introduction 1.2 Technical Problem of Conventional Single Crystal 1.3 Problem of Conventional Translucent and Transparent Ceramics 1.4 Objective of Optical Grade Ceramics 1.5 Conclusions References

7  2 Ceramic Laser/Solid‐State Laser 2.1 Background 2.2 Principle of Laser Generation 2.3 Laser Ceramics References

8  3 Scintillators 3.1 Background 3.2 Physics of Scintillation 3.3 Inorganic Single Crystal Scintillation Materials 3.4 Fabrication of Advanced Single Crystal and Ceramics Scintillators 3.5 Optimization of Single Crystal and Ceramic Scintillators 3.6 Residual Problems and Future Trends Acknowledgments References

9  4 Magneto‐Optic Transparent Ceramics 4.1 Introduction 4.2 Theory of Magneto‐Optic Effect 4.3 Important Parameter for Application 4.4 Paramagnetic Magneto‐Optic Ceramic Materials 4.5 Ferrimagnetic Magneto‐Optic Ceramics 4.6 Summary References

10  5 Solid‐State Lighting 5.1 Introduction 5.2 Light Emitting Diodes (LEDs) 5.3 Fundamentals of Phosphor‐Converted White LEDs 5.4 Optical Ceramic Phosphors for High‐Power Solid‐State Lighting References

11  6 Passive Application/Window, Dome, and Armor 6.1 Background 6.2 Important Parameters 6.3 Fabrication of Passive Ceramics 6.4 Performance for Various Applications 6.5 Residual Problems and Future References

12  7 Other Important Technologies 7.1 Surface Polishing (Finishing) and Coating 7.2 Bonding Technology 7.3 Single Crystal Ceramics by SSCG (Solid‐State Crystal Growth) 7.4 Applications Using Ceramic Laser Technology 7.5 New Applications Using Transparent Ceramics 7.6 Residual Problems and Future References Conclusion Remarks

13  Index

14  End User License Agreement