## Introduction to Solid State PhysicsNew edition of the most widely-used textbook on solid state physics in the world. Describes how the excitations and imperfections of actual solids can be understood with simple models that have firmly established scope and power. The foundation of this book is based on experiment, application and theory. Several significant advances in the field have been added including high temperature superconductors, quasicrystals, nanostructures, superlattices, Bloch/Wannier levels, Zener tunneling, light-emitting diodes and new magnetic materials. |

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Results 1-3 of 79

Page 342

2.0 — Entropy in m] mol'l K" 0 0.2 0.4 0.6 0.8 1.0 1.2 Temperature, K Figure 6

Entropy S of aluminum in the

the temperature. The entropy is lower in the superconducting state because the ...

2.0 — Entropy in m] mol'l K" 0 0.2 0.4 0.6 0.8 1.0 1.2 Temperature, K Figure 6

Entropy S of aluminum in the

**normal**and superconducting states as a function ofthe temperature. The entropy is lower in the superconducting state because the ...

Page 349

Now consider a

of a metal in the

independent of field. At the critical field we have FN(Bac) *: FN(0) - (7) The results

...

Now consider a

**normal**nonmagnetic metal. If we neglect the small susceptibility”of a metal in the

**normal**state, then M = 0 and the energy of the**normal**metal isindependent of field. At the critical field we have FN(Bac) *: FN(0) - (7) The results

...

Page 376

Here oo is an ordinary

number of

Neglect inertial effects on both j\ and js. (a) Show from the Maxwell equations that

the ...

Here oo is an ordinary

**normal**conductivity, decreased by the reduction in thenumber of

**normal**electrons at temperature T as compared to the**normal**state.Neglect inertial effects on both j\ and js. (a) Show from the Maxwell equations that

the ...

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### Contents

PERIODIC ARRAYS OF ATOMS | 3 |

INDEX SYSTEM FOR CRYSTAL PLANES | 12 |

NONIDEAL CRYSTAL STRUCTURES | 21 |

Copyright | |

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### Common terms and phrases

absolute zero alloys approximation atoms band edge Bloch Brillouin zone calculated Chapter charge collisions components conduction band conduction electrons crystal structure cubic deﬁned density dielectric function diffraction direction dislocation dispersion relation displacement effective mass elastic electric field electron concentration electron gas energy band energy gap equation equilibrium exciton experimental Fermi surface ferroelectric ferromagnetic ﬁeld Figure ﬁlled ﬁrst Fourier free atom free electron frequency germanium heat capacity hole impurity integral interaction ion cores lattice constant lattice point low temperatures magnetic field metals modes momentum motion nearest-neighbor normal optical orbitals oscillator particle phase phonon plane plasmons polarization positive potential energy primitive cell quantum reciprocal lattice vector resonance result scattering semiconductor shown in Fig silicon Solid state physics space specimen sphere spin superconducting Table theory thermal tion transition valence band values velocity volume wave wavefunction wavelength wavevector x-ray zone boundary zone scheme