Electronic, Magnetic, and Thermal Properties of Solid Materials |
Contents
PREFACE iii | 1 |
Elastic Properties of Crystals | 29 |
MAGNETISM | 133 |
Copyright | |
6 other sections not shown
Common terms and phrases
A-atoms absorption alloy systems alloys antiferromagnetic assumes band structure Bohr magnetons Brillouin zone calculation chromium composition conduction band conduction electrons constant copper crystal Curie temperature curve d-band d-electrons Debye decrease density effect elastic elec electrical electronic specific heat electrons per atom energy band energy gap equation experimental Fermi energy level Fermi surface ferromagnetic Figure free electron model frequency germanium given in Fig gives Hall coefficient holes impurity atom increase interaction ions iron lattice leads linear low temperatures magnetic field measurements nearest neighbors nickel noble metal number of electrons obtained optical oscillator palladium paramagnetic parameter peak phonon Phys potential resistivity rigid band model room temperature sample scattering Seebeck coefficient semiconductors shows solid solutions specific heat spin sublattice superconducting susceptibility temperature dependence thermal thermopower tion transition elements tron unit cell valency values vector velocity wave functions zero zinc