Dielectric Spectroscopy of Electronic Materials
Applied Physics of Dielectrics
- 1st Edition - July 6, 2021
- Imprint: Woodhead Publishing
- Author: Yuriy Poplavko
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 3 5 1 8 - 8
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 2 3 6 4 4 - 4
Dielectric Spectroscopy of Electronic Materials: Applied Physics of Dielectrics incorporates the results of four decades of research and applications of dielectric spectrosc… Read more
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Request a sales quoteDielectric Spectroscopy of Electronic Materials: Applied Physics of Dielectrics incorporates the results of four decades of research and applications of dielectric spectroscopy for solids, mostly for the investigation of materials used in electronics. The book differs from others by more detailed analysis of the features of dielectric spectra conditioned by specific mechanisms of electrical polarization and conductivity. Some original methods are presented in the simulation of frequency distributions (relaxers and oscillators), with methods proposed for various ferroelectrics frequency-temperature dielectric spectra. Also described are original methods for ferroelectrics on microwaves investigation, including the features of thin films study.
The book is not burdened by complex mathematical proofs and should help readers quickly understand how to apply dielectric spectroscopy methods to their own research problems. More advanced readers may also find this book valuable as a review of the key concepts and latest advances on the topics presented.
- Introduces critical material characterization techniques by an expert with more than 40 years of experience in dielectric spectroscopy
- Reviews advances in dielectric spectroscopy methods to enable advances such as the miniaturization of electronics at the nanoscale
- Provides an overview of polarization mechanisms utilizing different models (i.e., oscillator and relaxation)
Materials scientists and Engineers. Physicists, Chemists, Electrical Engineers
- Cover image
- Title page
- Table of Contents
- Copyright
- Preface
- Introduction
- 1. The basics of dielectric spectroscopy
- Abstract
- 1.1 Generalized reaction of dielectrics to an applied electrical field
- 1.2 Complex permittivity and conductivity
- 1.3 Frequency dispersion of conductivity and permittivity
- 1.4 Conductivity and permittivity at plasma resonance
- 1.5 Relaxor model in dielectric spectroscopy
- 1.6 Oscillator model in dielectric spectroscopy
- 1.7 Comparison of relaxor and oscillator dispersion models
- 1.8 Summary
- References
- 2. Broadband dielectric spectroscopy
- Abstract
- 2.1 Dielectric spectra peculiarities
- 2.2 Description of broadened relaxation spectra
- 2.3 Broadened resonance spectra of permittivity dispersion
- 2.4 Permittivity dispersion in dipole-ordered ferroelectrics
- 2.5 Permittivity dispersion in displacement ferroelectrics
- 2.6 Summary
- References
- 3. Polarization mechanisms described by an oscillator model
- Abstract
- 3.1 Features of dielectrics affecting dielectric spectra
- 3.2 Parameters characterizing electrical polarization
- 3.3 Electronic (optical) polarization
- 3.4 Ionic lattice (far-infrared) polarization
- 3.5 Quasielastic dipole polarization
- 3.6 Piezoelectric polarization
- 3.7 Summary
- References
- 4. Polarization mechanisms described by relaxation model
- Abstract
- 4.1 Features of dielectrics exhibiting relaxation polarization
- 4.2 Thermally activated dipole polarization
- 4.3 Thermally activated ionic polarization
- 4.4 Thermally activated electronic polarization
- 4.5 Electrocaloric contribution to dielectric permittivity
- 4.6 Migratory (space charge) polarization
- 4.7 Dielectric relaxation in polymers and composites
- 4.8 Summary
- References
- 5. Dielectric spectroscopy of microwave-absorbing materials
- Abstract
- 5.1 Electromagnetic solution
- 5.2 Absorbing composites based on conductors
- 5.3 Magnetic materials as fillers in composites
- 5.4 High-loss microwave dielectrics as potential fillers
- 5.5 Absorbing composites design
- 5.6 Summary
- References
- 6. Selected examples of ferroelectrics dielectric spectra
- Abstract
- 6.1 Ferroelectricity conception
- 6.2 Dielectric spectra of order–disorder ferroelectrics
- 6.3 Dielectric spectra of paraelectrics
- 6.4 Dielectric spectra of displacive ferroelectrics
- 6.5 Dielectric spectra of antiferroelectrics, ferrielectrics, etc
- 6.6 Dielectric spectra of relaxor ferroelectrics
- 6.7 Summary
- References
- 7. Selected examples of various solids dielectric spectroscopy
- Abstract
- 7.1 Dielectric spectra of certain semiconductors
- 7.2 Dielectric spectra of selected ionic compounds
- 7.3 Dielectric spectra of thermal stable dielectrics
- 7.4 High-permittivity film dielectric spectroscopy
- 7.5 Summary
- References
- Index
- Edition: 1
- Published: July 6, 2021
- Imprint: Woodhead Publishing
- No. of pages: 376
- Language: English
- Paperback ISBN: 9780128235188
- eBook ISBN: 9780128236444
YP
Yuriy Poplavko
Dr Poplavko has been teaching electronic materials science topics for the past 40 years in the Ukraine, Portugal and South Korea. During his time at the National Technical University of Ukraine he has developed several courses in materials science and physics and has published more than 20 scientific books and manuals (4 books in English, 6 books in Russian, and 10 books in Ukrainian) on dielectrics, polar crystals, ferroelectrics, and many others. Dr Poplavko is also a renowned expert in the physics of ferroelectrics and dielectrics, known primarily for his efforts in discovering the research method microwave dielectric spectroscopy.
Affiliations and expertise
Professor of Microelectronics, Electronics faculty, Microelectronics department, Department of National Technical University of Ukraine, Igor Sikorsky Kiev Polytechnic InstituteRead Dielectric Spectroscopy of Electronic Materials on ScienceDirect