(Ebook PDF) Electronic materials principles and applied science 1st edition by Yuriy Poplavko 0128152567 9780128152560 full chapters

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ISBN-10 :  0128152567 

ISBN-13 :  9780128152560

Author:  Yuriy M. Poplavko

Mechanical and thermal properties are reviewed and electrical and magnetic properties are emphasized. Basics of symmetry and internal structure of crystals and the main properties of metals, dielectrics, semiconductors, and magnetic materials are discussed. The theory and modern experimental data are presented, as well as the specifications of materials that are necessary for practical application in electronics. The modern state of research in nanophysics of metals, magnetic materials, dielectrics and semiconductors is taken into account, with particular attention to the influence of structure on the physical properties of nano-materials.

Electronic materials : principles and applied science 1st Table of contents:

Chapter 1: Structure of electronic materials
1.1. Atomic Bonding in Metals, Semiconductors, and Dielectrics
1.2. Symmetry of Crystals
1.3. Basic Structures of Crystals Used in Electronics
1.4. Lattice Defects in Crystals
1.5. Structure and Symmetry of Quasicrystals and Nanomaterials
1.6. Structures of Composites and Metamaterials
1.7. Summary
References
Chapter 2: Mechanical properties of solids
2.1. Mechanical Stress Tensor
2.2. Mechanical Strain Tensor
2.3. Elastic Stiffness and Elastic Compliance
2.4. Elastic Waves in Crystals
2.5. Summary
References
Chapter 3: Thermal properties of solids
3.1. Basic Thermal and Energy Relationships
3.2. Thermal Expansion of Solids
3.3. Crystal Heat Capacity
3.4. Thermal Conductivity of Solids
3.5. Summary
References
Chapter 4: Quasiparticles in solids
4.1. Different Elementary Movements in Solids
4.2. Quasiparticle Statistics
4.3. Photons
4.4. Phonons
4.5. Magnons
4.6. Electrons in Atoms and in Crystals
4.7. Electrons in Metals, Dielectrics, and Semiconductors
4.8. Summary
References
Chapter 5: Metals
5.1. Defining Features of Metals
5.2. Electrical Conductivity of Metals
5.3. Thermal Properties of Metals
5.4. Electronic Properties of Metals and Fermi Surface
5.5. Electron Scattering in Metals
5.6. Special Electronic States in Metals
5.7. Superconductivity in Metals and Alloys
Summary
References
Chapter 6: Magnetics
6.1. Basic Definitions
6.2. Disordered Magnetics
6.3. Ferromagnetism
6.4. Antiferromagnetism and Ferrimagnetism
6.5. Nanomagnetic Materials
6.6. Summary
References
Chapter 7: Dielectrics
7.1. Main Features of Dielectrics
7.2. Macroscopic Description of Polarization
7.3. Different Mechanisms of Polarization
7.4. Optical and Far-Infrared Polarizations
7.5. Thermally Activated Polarizations
7.6. Clausius-Mosotti-Lorentz Equation
7.7. Dynamics of Electrical Polarization
7.8. Dielectric Losses and Dielectric Spectroscopy
7.9. Electroconductivity in Dielectrics
7.10. Electrical Breakdown
7.11. Summary
References
Chapter 8: Semiconductors
8.1. Defining Characteristics and Classification of Semiconductors
8.2. Fundamentals of Band Theory of Semiconductors
8.3. Intrinsic and Extrinsic Semiconductors
8.4. Kinetic Processes in Semiconductors
8.5. Optical Phenomena in Semiconductors
8.6. Semiconductors in Magnetic Field
8.7. Nanoscale and Quantum-Dimensional Effects
Summary
References
Chapter 9: Polar dielectrics in electronics
9.1. Simplified Description of Primary Effects
9.2. Piezoelectric Effect
9.3. Inverse Piezoelectric Effect
9.4. Electromechanical Coupling in Piezoelectric
9.5. Electrostriction
9.6. Pyroelectrics and Electrets
9.7. High-Permittivity Dielectrics and Paraelectrics
9.8. Ferroelectrics and Antiferroelectrics
9.9. Ferrielectrics and Ferroelastics
9.10. Nonlinearity of Ferroelectrics and Paraelectrics
9.11. Different Effects Interdependence in Polar Crystals
9.12. Summary
References
Chapter 10: Phase transitions in solids
10.1. Phase Transitions of First and Second Orders
10.2. Physical Meaning of Ordering Parameter
10.3. Phase Transitions With Anomalies in Dielectric Properties
10.4. Phase Transitions With Conductivity Anomalies
Dielectrics With Unstable Electronic Spectrum [7]10.5. Phase Transitions in Liquid Crystals
10.6. Large Parameters and Giant Effects in Electronic Materials
10.7. Summary

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