Introduction to Solid State Physics |
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Page 10
... Figure 6 The crystal structure is formed by the addition of the basis ( b ) to every lattice point of the lattice ( a ) . By looking at ( c ) , you can recognize the basis and then you can abstract the space lattice . It does not matter ...
... Figure 6 The crystal structure is formed by the addition of the basis ( b ) to every lattice point of the lattice ( a ) . By looking at ( c ) , you can recognize the basis and then you can abstract the space lattice . It does not matter ...
Page 21
Charles Kittel. 109 ° 28 ' Figure 16 Body - centered cubic lattice , showing a primitive cell . The primitive cell shown is a rhombohedron of edge √3a , and the angle between adjacent edges is 109 ° 28 ' . Figure 17 Primitive ...
Charles Kittel. 109 ° 28 ' Figure 16 Body - centered cubic lattice , showing a primitive cell . The primitive cell shown is a rhombohedron of edge √3a , and the angle between adjacent edges is 109 ° 28 ' . Figure 17 Primitive ...
Page 186
... figure . In the gap the wave attenuates as e ̄ || , and we see from the plot that the attenuation is much stronger near wr than near wy . The range of K in this figure is of the order of 104 cm - 1 , which is to the extreme left of the ...
... figure . In the gap the wave attenuates as e ̄ || , and we see from the plot that the attenuation is much stronger near wr than near wy . The range of K in this figure is of the order of 104 cm - 1 , which is to the extreme left of the ...
Contents
CRYSTAL STRUCTURE | 1 |
CRYSTAL DIFFRACTION AND THE RECIPROCAL LATTICE | 43 |
CRYSTAL BINDING | 95 |
Copyright | |
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absolute zero absorption alkali halide alloy antiferromagnet applied field atoms axis boundary Brillouin zone calculated Chapter charge components conduction band conduction electrons crystal structure cubic density dielectric constant dielectric function diffraction dipole direction dislocation dispersion relation effective mass elastic electric field electron concentration electron gas energy gap equation equilibrium excited exciton experimental F center Fermi surface ferroelectric ferromagnetic Figure free electron frequency function given heat capacity hole impurity interaction ionic lattice constant lattice points low temperatures magnetic field magnetic moment magnon metal modes momentum motion nearest neighbors neutron normal nuclear optical orbital paramagnetic particle phase phonon Phys plane polarization positive potential primitive cell quantum reciprocal lattice vector region resonance result room temperature scattering semiconductor shown in Fig space specimen sphere superconducting theory thermal tion transition unit vacancy valence band velocity wavefunction wavelength wavevector x-ray