Page 336 - Semiconductor For Micro- and Nanotechnology An Introduction For Engineers
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hydrodynamic 220, 222
local 192
Maxwell 144, 149, 152, 164
moment balance 220 etching 90
Euler 288
momentum balance 221 expansion
momentum continuity 200 thermal 86
particle density balance 200 expectation value 98, 99, 100, 104,
quasi-static 154 114
semi-classical Boltzmann exponential decay 108, 116
transport 192 extensive
wave 149, 151 property 191
equilibrium external reservoir 195
F Faraday law 145, 149 inter-atomic 74
Fermi-Dirac free
distribution 181 electron 108
fermion 170, 196 free carrier
field absorption 268, 270
electric 144 free electron 96
magnetic 144 state 108
magnetic induction 154 wavefunction 114
finite box potential 112 frequency
finite potential 106 phonon 75
flux 225, 226 function
heat 215, 236 Dirac delta 151
magnetic 146 Gaussian spectral 162
magnetic density 146 Green 151
moment 202, 204 Hamilton 118
particle 200 Kronecker delta 151
phonon 237 particle distribution 192
thermodynamic 204, 205, 207, partition 179, 180, 184
213, 215, 253 photon partition 183
forbidden spherical harmonic 124
band 96 unit pulse 151
force fundamental solution 151
G gallium arsenide 27, 37, 38, 39, 42, glass fibre
164 homogeneous 166
gap grand canonical
band 18, 136 distribution 177
indirect band 136, 137 grand canonical ensemble 170, 176
gas grand canonical partition
absorption 263 function 180
Gauss Green function 151
theorem 106, 200 ground state 103, 120
Gauss law 147 energy 120
electric field 145 ground–state 119
magnetic field 145 group velocity 197
Gaussian Grüneisen parameter 88
spectral function 162
wavefunction 101, 102, 114
Semiconductors for Micro and Nanosystem Technology 333
