Table of Contents

PART 1. GENERAL PHYSICS PHENOMENA

Chapter 1. Physics of Dielectrics

1.1. Definitions

1.2. Different types of polarization

1.3. Macroscopic aspects of the polarization

1.4. Bibliography

Chapter 2. Physics of Charged Dielectrics: Mobility and Charge Trapping

2.1. Introduction

2.2. Localization of a charge in an “ideally perfect” and pure polarizable medium

2.3. Localization and trapping of carriers in a real material

2.4. Detrapping

2.5. Bibliography

Chapter 3. Conduction Mechanisms and Numerical Modeling of Transport in Organic Insulators: Trends and Perspectives

3.1. Introduction

3.2. Molecular modeling applied to polymers

3.3. Macroscopic models

3.4. Trends and perspectives

3.5. Conclusions

3.6. Bibliography

Chapter 4. Dielectric Relaxation in Polymeric Materials

4.1. Introduction

4.2. Dynamics of polarization mechanisms

4.3. Orientation polarization in the time domain

4.4. Orientation polarization in the frequency domain

4.5. Temperature dependence

4.6. Relaxation modes of amorphous polymers

4.7. Relaxation modes of semi-crystalline polymers

4.8. Conclusion

4.9. Bibliography

Chapter 5. Electrification

5.1. Introduction

5.2. Electrification of solid bodies by separation/contact

5.3. Electrification of solid particles

5.4. Conclusion

5.5. Bibliography

PART 2. PHENOMENA ASSOCIATED WITH ENVIRONMENTAL STRESS – AGEING

Chapter 6. Space Charges: Definition, History, Measurement

6.1. Introduction

6.2. History

6.3. Space charge measurement methods in solid insulators ...

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