Page 331 - Semiconductor For Micro- and Nanotechnology An Introduction For Engineers
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silicon nitride 37
low order 74
Ampere law 145, 146
quasi static 154
amplitude 160, 182, 273, 286, 295 harmonic 85
eigenvector 74 specific heat 86
energy 130 strain 59
oscillator spring 118 arrangement 309, 313
partial wave 117 atom 90
unit 116 lattice 27
wave 45, 47 of points 40
analog 157, 236 regular atomic 39
circuitry 20 symmetric 42
analysis 152, 165, 206, 234, 257, tetrahedral 33
288, 301 array
quantum mechanical 82 of points 41
analytical 151, 161 arsenic 301
solution 109 atom 37, 38
angle 216, 237, 238, 294 association 153, 254
azimuthal 123 pair 61
polar 123 atmosphere 90
angular frequency 102 oxygen 19
anharmonic 197, 235 atom 19, 23, 27, 144, 147, 181, 183,
crystal 28 188, 191, 233, 247, 251,
anisotropic 203, 207, 217, 218, 261, 268, 270, 300, 301
262 1D chain 68
acoustic dispersion 64 absolute position 55
media 83 arrangement 52
anisotropy arsenic 38
crystal 139 average lattice site position 54
interatomic binding energy 71 behaviour 27
ansatz 278, 284, 295 binding energy 57
displacement 73 bonds 48, 51
eigensolution 133 bound 67
harmonic 72, 74 bound state 126
harmonic displacement 70 carbon like 49
mechanical 88 collision 126
application 18, 163, 171, 184, 231, column III & V 19
233, 313 combination 33
Bose-Einstein distribution 183 constituent 29, 42, 53, 91
approach 222, 237, 249, 315, 316, count 69
322 covalent bond 28, 50
book 13 crystal 60, 88
quantum mechanical 162 defect 127
approximation 174, 184, 186, 196, diameter 22, 90
198, 199, 201, 202, 204, displacement 55, 67, 72
205, 208, 209, 217, 221, displacement vector 54
241, 242, 256, 268, 271, donor & acceptor 19
273 dopant 35
effective mass 139 electronic level 140
elastic coefficient 27 electronic principle 126
Hamilton function 118 electronic state 123
328 Semiconductors for Micro and Nanosystem Technology
