Page 334 - Semiconductor For Micro- and Nanotechnology An Introduction For Engineers
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conductivity 146, 152
conservation
harmonic potential energy 88
free charge 153 Hamiltonian 82
lattice 183
particle number 200 lattice constant 90
conserved quantity 104 single-atom 42
constitutive equation 146, 191 surface 90
constraint 178 vibrational mode 71
continuity equation 104, 200, 201 cubic crystal 173
momentum 200 curl operator 145
continuous current
k 113 absorption 265
continuum continuity 194
lattice 184 density 146
coordinate current density 105
spherical 173 energy 198, 201
coordinate transformation 119 incoming 117
Coulomb momentum 198, 199, 200, 201
interaction 97, 126 particle 198, 200, 201, 204, 207
potential 123 current density of probability 105
coupled equation 201 curve
crystal dispersion 77, 91
cubic 173
D dangling bond 90 delta function 151
Davisson and Germer 97 notation 98
De Broglie 97 dispersion
Debye relation 86 acoustic 74
Debye temperature 85 branch curve 71
decay curve 77, 91
exponential 116 diagram 77
defect diagram for phonon 74
crystal 88 monatomic relation 67
degeneracy 112 relation 71, 73, 76
eigenvalue 126 displacement
degenerate eigenvalue 112 ansatz 73
delta function 113 electric 144
density distribution
mass 98 Bose-Einstein 183
spatial 198 canonical 175
density of states 173 Fermi-Dirac 181
phonon 75, 77 function, particle 192
determinant 109 grand canonical 177
diagram Maxwell-Boltzmann 179
dispersion 77 particle 170
differential equation 226, 228 divergence 200
Laguerre 124 drift-diffusion equation 192, 222,
second order 107 310
set 128 Dulong and Petit 85
diffusion equation 153
Dirac 113
Semiconductors for Micro and Nanosystem Technology 331
