Page 338 - Semiconductor For Micro- and Nanotechnology An Introduction For Engineers
P. 338
Lagrangian
Faraday 145, 149
L
mechanics 65
Gauss 147
Lamb, Horace 288 LCAO 137
lattice level
1D monatomic 71, 75 energy 180
2D monatomic 71, 72 line integral 146
continuum 184 linear combination
crystal 183 normal modes 85
heat capacity 81 linear combination of atomic
quantized vibration 118 orbitals 137
thermal conductivity 87 linear equation system 109
vibration 81, 182, 183 linear harmonic oscillator 84, 85
wavefunction 245 liquid molecule 195
lattice constant local equilibrium 192
crystal 90 localized state
law phonon 88
Ampere 145, 146 Lord Rayleigh 288
electrostatic 146 Love, Augustus Edward Hough 288
M magnetic statistical 169
146 method
flux 146 root sampling 77
flux density 146 tight binding 137
monopole 146 Walker 77
magnetic diffusion time 153 microcanonical ensemble 170, 171,
magnetic field 144, 199 176
magnetic induction 144 microwaves 143
magnetic induction field 154 mobility
magneto-quasi-statics 154 charge 147
mass 96 mode
bound electron 96 normal 82, 84
center 71 mol 169
density 98 moment
effective 96, 192 r-th order 198
material second order 198
interface 88 zeroth order 198
matrix moments
coefficient 109 infinite sequence 199
dynamical 72, 74 momentum
stiffness 72 continuity equation 200
Maxwell equation 144, 149, 152, 164 current density 198, 199, 200, 201
Maxwell, James Clarke 143 eigenfunction 114
Maxwell-Boltzmann eigenvalue 112
distribution 179 electron 98
statistics 178 free particle 192
mechanics operator 119, 122
action 65 relation 100
Hamiltonian 64, 65 relaxation 200, 203
kinematics 65 monatomic
Lagrangian 65 1D lattice 71, 75
Semiconductors for Micro and Nanosystem Technology 335
