## Introduction to solid state physics |

### From inside the book

Results 1-3 of 14

Page 410

0.2 0.4 0.6 0.8 Temperature in deg K 1.0 1.2 Figure 9

the normal and superconducting states as a function of the temperature. The

ordered ...

0.2 0.4 0.6 0.8 Temperature in deg K 1.0 1.2 Figure 9

**Entropy**S of aluminum inthe normal and superconducting states as a function of the temperature. The

**entropy**is lower in the superconducting state because the electrons are moreordered ...

Page 514

15 T in millidegrees Figure 8

temperature, assuming an internal random magnetic field B4 of 100 gauss. The

specimen is magnetized isothermally along ab, and is then insulated thermally.

15 T in millidegrees Figure 8

**Entropy**for a spin i system as a function oftemperature, assuming an internal random magnetic field B4 of 100 gauss. The

specimen is magnetized isothermally along ab, and is then insulated thermally.

Page 516

X, (?) »B *„T Figure 10

realistic experiment the specimen is initially at 1 " K and the internal random

magnetic field /JA is of the order of 100 gauss. Then fn^a/Wi ~ 10~18/10"16 ~ 10~

2, and ...

X, (?) »B *„T Figure 10

**Entropy**of a spin i system as a function of iiB/kaT. In arealistic experiment the specimen is initially at 1 " K and the internal random

magnetic field /JA is of the order of 100 gauss. Then fn^a/Wi ~ 10~18/10"16 ~ 10~

2, and ...

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### Contents

CRYSTAL STRUCTURE | 1 |

CRYSTAL DIFFRACTION AND THE RECIPROCAL LATTICE | 43 |

CRYSTAL BINDING | 95 |

Copyright | |

24 other sections not shown

### Common terms and phrases

absolute zero absorption alkali alloy antiferromagnet applied field applied magnetic field atoms axis boundary Brillouin zone calculated Chapter charge components conduction band conduction electrons critical field crystal structure cubic defined density dielectric constant diffraction dipole direction dislocation dispersion relation elastic electric field electron gas energy gap entropy equation equilibrium excited exciton experimental F center Fermi surface ferroelectric ferromagnetic Figure free electron frequency function given heat capacity hole impurity interaction ionic ions lattice constant lattice points low temperatures magnetic field magnon Meissner effect metal momentum motion nearest neighbors neutron normal nuclear nucleus optical orbital paramagnetic particle phase phonon Phys physics plane polarizability polarization positive potential primitive cell quantum reciprocal lattice vector region resonance result room temperature scattering semiconductor shown in Fig solid specimen sphere spin superconducting susceptibility theory thermal tion transition temperature unit vacancies valence band velocity wave wavefunction wavelength wavevector x-ray