
CONTENTS 1. Classification of Solids2. Lattice Vibrations and Lattice Specific Heat3. Equilibrium Properties of a Free-electron Gas4. Electrons in a Periodic Lattice5. Transport Equation6. Relaxation Mechanisms7. Conductivity and Related Metals8. Homogeneous Semiconductors9. Rectifying Junctions and Transistors10. Optical Properties of Semiconductors11. Properties of Semiconductors and Metals in Strong Magnetic FieldsAppendix Summary of Elementary Quantum MechanicsAppendix Units and Conversion FactorsAppendix The Periodic TableAppendix Values of Important Physical Constants and Some Convenient Conversion FactorsAppendix List of Symbols
This text investigates the fundamental physical principles governing the movement of electrons within solid materials. Frank J. Blatt, a recognized physicist, utilizes a formal academic framework to bridge the gap between elementary quantum mechanics and the practical behavior of metals and semiconductors. The book systematically builds from basic lattice structures to complex transport phenomena, providing a rigorous mathematical foundation for understanding electronic conduction.
What You Will Find
Scope Limits
Experts frequently cite this work as a foundational text for students transitioning into advanced solid-state physics. Readers often note the high density of the mathematical derivations, which requires a solid background in undergraduate quantum mechanics to fully comprehend.
Page Count:
464
Publication Date:
1968-01-01
Publisher:
McGraw-Hill
ISBN-10:
0070058768
ISBN-13:
9780070058767
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