E-Book, Englisch, 554 Seiten, Web PDF
Busch / Schade / Ter Haar Lectures on Solid State Physics
1. Auflage 2013
ISBN: 978-1-4831-5753-5
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
International Series in Natural Philosophy
E-Book, Englisch, 554 Seiten, Web PDF
ISBN: 978-1-4831-5753-5
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
Lectures on Solid State Physics is a compilation of lectures concerned with various branches of solid state physics. It aims to develop basic physical ideas that lead to a better understanding of phenomena and effects. Comprised of 11 chapters, this book discusses several topics on solid state physics: structure of solids; interference effects in crystals; lattice dynamics; perfect and imperfect crystals; electrons and electron theory of metals; semiconductors; electrical contact effects; transport phenomena, and magnetism. Students, physics graduates, electrical engineers, chemists, and metallurgists will find this book invaluable.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Lectures on Solid State Physics;4
3;Copyright Page;5
4;Table of Contents;6
5;Tables;11
6;Introduction;12
7;Preface;14
8;Preface to the English Edition;16
9;Chapter A. Characteristic Features of the Structure of Solids;18
9.1;References;20
10;Chapter B. Interference Effects in Crystals;22
10.1;I. Geometrical Properties of Perfect Crystals;22
10.2;II. X-ray Diffraction by Crystals;33
10.3;III. Brillouin Zones;56
10.4;References;58
11;Chapter C. Lattice Dynamics;60
11.1;I. Thermodynamic Fundamentals;60
11.2;II. The Internal Energy;62
11.3;References;122
12;Chapter D. Imperfections;123
12.1;I. Structural Imperfections;123
12.2;II. Chemical Imperfections;158
12.3;References;171
13;Chapter E. Foundations of the Electron Theory of Metals;173
13.1;I. Properties of Metals;173
13.2;II. Free-electron Model;174
13.3;III. Sommerfeld's Theory;175
13.4;References;210
14;Chapter F. Electrons in a Periodic Potential;212
14.1;I. Assumptions of the Single-electron Approximation;212
14.2;II. Bloch Waves;213
14.3;III. Eigenvalues and Energy Bands;215
14.4;IV. Special Cases of Potentials;218
14.5;V. Summary;230
14.6;VI. Motion of an Electron in the Periodic Potential;230
14.7;VII. Ensemble of Electrons;242
14.8;VIII. Principles and Methods of Band Structure Analysis;253
14.9;References;294
15;Chapter G. Semiconductors;296
15.1;I. Holes;296
15.2;II. Intrinsic Semiconductors;297
15.3;III. Impurity Semiconductors;309
15.4;IV. Types of Semiconductors;316
15.5;References;324
16;Chapter H. Contact Effects;325
16.1;I. Thermodynamic Equilibrium;325
16.2;II. Metal–Semiconductor Contacts;331
16.3;III. Semiconductor–Semiconductor Contacts;351
16.4;References;367
17;Chapter J. Transport Phenomena;368
17.1;I. The Problem;368
17.2;II. The Boltzmann Equation;369
17.3;II.. Electrical Conductivity and Thermal Conductivity;374
17.4;IV. Thermoelectrical Effects;388
17.5;V. Galvanomagnetic Effects;397
17.6;VI. Scattering Processes;413
17.7;References;421
18;Chapter K. Magnetism;422
18.1;I. Phenomenological Description of Magnetic Properties;422
18.2;II. Thermodynamics of Magnetization;433
18.3;.II. Atomistic Description of the Magnetic Moments;438
18.4;IV. Diamagnetism and Paramagnetism;450
18.5;V. Phenomena of Collective Magnetic Ordering;476
18.6;References;490
19;Physical Constants and Conversion Factors;491
19.1;I. Physical Constants;491
19.2;II. Energy Conversion;492
19.3;.II. Particles and Waves;493
20;Data of the "Standard" Metal;495
21;Periodic System and Periodic Tables of the Physical Properties of the Elements;496
22;References;510
23;Problems;514
24;Index;540
25;OTHER TITLES IN THE SERIES IN NATURAL PHILOSOPHY;554
