Introduction to Solid State Physics |
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Page 20
... direction . such that the contributions from each lattice point differ in phase only by integral multiplies of 2π . This is satisfied if the phase differ- Reflecting plane 0 S S = 50 - s Fig . 1.14 . Construction of the normal to the ...
... direction . such that the contributions from each lattice point differ in phase only by integral multiplies of 2π . This is satisfied if the phase differ- Reflecting plane 0 S S = 50 - s Fig . 1.14 . Construction of the normal to the ...
Page 180
... direction , refer- red to the lower energy required to saturate along a direction of easy magnetization . The excess energy required in the hard direction is the anisotropy energy . As an example of anisotropy energy we may consider ...
... direction , refer- red to the lower energy required to saturate along a direction of easy magnetization . The excess energy required in the hard direction is the anisotropy energy . As an example of anisotropy energy we may consider ...
Page 181
Charles Kittel. direction of easy magnetization ( at room temperature ) , while all directions in the basal plane , normal to the axis , are hard directions . The magnetization curves of a single crystal of cobalt are shown in Fig ...
Charles Kittel. direction of easy magnetization ( at room temperature ) , while all directions in the basal plane , normal to the axis , are hard directions . The magnetization curves of a single crystal of cobalt are shown in Fig ...
Contents
LATTICE ENERGY OF IONIC CRYSTALS | 29 |
ELASTIC CONSTANTS OF CRYSTALS | 43 |
LATTICE VIBRATIONS | 60 |
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absorption alkali alloy anisotropy antiferromagnetic approximately atoms axes axis Bardeen barium titanate boundary calculated charge coefficient conduction band cube Curie point Debye density diamagnetic dielectric constant diffraction diffusion dipole direction discussed dislocation displacement domains effect elastic electric field energy entropy equation equilibrium experimental F-centers factor Fermi ferroelectric ferromagnetic free electron frequency given heat capacity holes impurity interaction ionic crystals ionized ions lattice constant lattice points London low temperatures magnetic field magnetic moment metals molecules motion nearest neighbor normal observed optical orbital parallel paramagnetic particles perovskite phonons Phys physical plane polarizability polarization positive potassium potassium chloride potential Proc quantum resonance result room temperature scattering Seitz shear Shockley shown in Fig single crystal sodium chloride solids specimen spin strain stress superconducting surface susceptibility symmetry Table theory thermal tion transition unit volume vacancy valence values vector velocity wave functions x-ray zero