Dielectric phenomena in solids with emphasis on physical concepts of electronic processes
In general, a dielectric is considered as a non-conducting or insulating material (such as a ceramic or polymer used to manufacture a microelectronic device). This book describes the laws governing all dielectric phenomena.·A unified approach is used in describing each of the dielectric phenomena,...
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Academic Press
c2004.
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| Edición: | 1st ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009644287706719 |
Tabla de Contenidos:
- Cover; Front matter; Half Title Page; Title Page; Copyright; Dedication Page; Contents; Preface; 1. Introduction; 1.1 Maxwell's Equations; 1.2 Magnetization; 1.3 Electromagnetic Waves and Fields; 1.4 Dimensions and Units; References; 2. Electric Polarization and Relaxation; 2.1 Fundamental Concepts; 2.2 Electric Polarization and Relaxation in Static Electric Fields; 2.3 The Mechanisms of Electric Polarization; 2.4 Classification of Dielectric Materials; 2.5 Internal Fields; 2.6 Electric Polarization and Relaxation in Time-Varying Electric Fields; 2.7 Dielectric Relaxation Phenomena; References
- 3. Optical and Electro-Optic Processes 3.1 Nature of Light; 3.2 Modulation of Light; 3.3 Interaction between Radiation and Matter; 3.4 Luminescence; 3.5 Photoemission; 3.6 Photovoltaic Effects; References; 4. Ferroelectrics, Piezoelectrics, and Pyroelectrics; 4.1 Introductory Remarks; 4.2 Ferroelectric Phenomena; 4.3 Piezoelectric Phenomena; 4.4 Pyroelectric Phenomena; References; 5. Electrets; 5.1 Introductory Remarks; 5.2 Formation of Electrets; 5.3 Charges, Electric Fields, and Currents in Electrets; 5.4 Measurements of Total Surface Charge Density and Total Charges
- 5.5 Charge Storage Involving Dipolar Charges 5.6 Charge Storage Involving Real Charges; 5.7 Basic Effects of Electrets; 5.8 Materials for Electrets; 5.9 Applications of Electrets; References; 6. Charge Carrier Injection from Electrical Contacts; 6.1 Concepts of Electrical Contacts and Potential Barriers; 6.2 Charge Carrier Injection through Potential Barriers from Contacts; 6.3 Tunneling through Thin Dielectric Films between Electrical Contacts; 6.4 Charge Transfer at the Metal-Polymer Interface; References; 7. Electrical Conduction and Photoconduction; PART I: ELECTRICAL CONDUCTION
- 7.1 Introductory Remarks 7.2 Ionic Conduction; 7.3 Electronic Conduction; 7.4 Bulk-Limited Electrical Conduction; 7.5 Bulk-Limited Electrical Conduction Involving Two Types of Carriers; 7.6 High-Field Effects; 7.7 Transitions between Electrical Conduction Processes; 7.8 Current Transient Phenomena; 7.9 Experimental Methodology and Characterization; PART II: PHOTOCONDUCTION; 7.10 Quantum Yield and Quantum Efficiency for Photoconduction; 7.11 Generation of Nonequilibrium Charge Carriers; 7.12 Photoconduction Processes; 7.13 Photosensitization; 7.14 Transient Photoconduction; References
- 8. Electrical Aging, Discharge, and Breakdown Phenomena8.1 Electrical Aging; 8.2 Electrical Discharges; 8.3 Electrical Breakdown; References; Index
