Electronic Properties of MaterialsThis carefully revised third edition on the electrical, optical, magnetic, and thermal properties of materials stresses concepts rather than mathematical formalism. Many examples from engineering practice provide an understanding of common devices and methods. |
Contents
IV | 3 |
V | 6 |
VI | 13 |
VII | 14 |
VIII | 15 |
IX | 16 |
X | 17 |
XI | 18 |
XCVIII | 224 |
C | 225 |
CI | 227 |
CII | 231 |
CIV | 236 |
CV | 238 |
CVI | 239 |
CVIII | 242 |
XII | 20 |
XIII | 24 |
XIV | 28 |
XV | 35 |
XVI | 36 |
XVII | 41 |
XVIII | 45 |
XX | 47 |
XXI | 52 |
XXII | 55 |
XXIII | 58 |
XXIV | 60 |
XXV | 62 |
XXVI | 63 |
XXVII | 64 |
XXVIII | 66 |
XXIX | 68 |
XXX | 69 |
XXXI | 70 |
XXXII | 72 |
XXXIII | 73 |
XXXIV | 74 |
XXXV | 75 |
XXXVI | 77 |
XXXVII | 78 |
XXXVIII | 80 |
XXXIX | 83 |
XL | 87 |
XLII | 88 |
XLIII | 90 |
XLIV | 91 |
XLV | 92 |
XLVI | 97 |
XLVII | 100 |
XLVIII | 103 |
XLIX | 104 |
L | 106 |
LI | 111 |
LII | 112 |
LIII | 113 |
LIV | 114 |
LV | 115 |
LVII | 116 |
LVIII | 118 |
LIX | 119 |
LX | 120 |
LXI | 124 |
LXII | 125 |
LXIII | 127 |
LXIV | 129 |
LXV | 132 |
LXVII | 134 |
LXVIII | 142 |
LXIX | 146 |
LXX | 155 |
LXXI | 162 |
LXXII | 166 |
LXXIII | 174 |
LXXIV | 177 |
LXXV | 179 |
LXXVI | 184 |
LXXVII | 185 |
LXXVIII | 189 |
LXXIX | 192 |
LXXXI | 195 |
LXXXII | 197 |
LXXXIII | 199 |
LXXXIV | 200 |
LXXXV | 203 |
LXXXVI | 204 |
LXXXVII | 206 |
LXXXVIII | 207 |
LXXXIX | 208 |
XC | 211 |
XCI | 214 |
XCII | 217 |
XCIII | 218 |
XCIV | 219 |
XCV | 222 |
XCVI | 223 |
CIX | 244 |
CX | 249 |
CXI | 250 |
CXII | 254 |
CXIII | 256 |
CXIV | 257 |
CXV | 260 |
CXVI | 263 |
CXVII | 264 |
CXVIII | 268 |
CXIX | 270 |
CXXI | 271 |
CXXII | 272 |
CXXIII | 274 |
CXXV | 276 |
CXXVII | 278 |
CXXVIII | 279 |
CXXIX | 281 |
CXXX | 283 |
CXXXI | 285 |
CXXXIII | 287 |
CXXXIV | 288 |
CXXXV | 289 |
CXXXVI | 291 |
CXXXVII | 293 |
CXXXIX | 296 |
CXL | 299 |
CXLI | 301 |
CXLIII | 303 |
CXLIV | 305 |
CXLV | 306 |
CXLVI | 310 |
CXLVIII | 312 |
CXLIX | 314 |
CL | 317 |
CLI | 323 |
CLII | 325 |
CLIII | 327 |
CLIV | 329 |
CLV | 333 |
CLVI | 336 |
CLVII | 338 |
CLVIII | 343 |
CLIX | 347 |
CLX | 349 |
CLXI | 350 |
CLXII | 352 |
CLXIII | 354 |
CLXV | 355 |
CLXVI | 358 |
CLXVII | 364 |
CLXIX | 365 |
CLXX | 367 |
CLXXI | 370 |
CLXXII | 371 |
CLXXIII | 372 |
CLXXV | 374 |
CLXXVI | 375 |
CLXXVII | 376 |
CLXXVIII | 377 |
CLXXIX | 379 |
CLXXX | 381 |
CLXXXI | 384 |
CLXXXII | 385 |
CLXXXIII | 389 |
CLXXXIV | 390 |
CLXXXV | 392 |
CLXXXVI | 393 |
CLXXXVII | 395 |
CLXXXVIII | 397 |
CLXXXIX | 399 |
CXCI | 401 |
CXCII | 403 |
CXCIII | 407 |
CXCIV | 408 |
CXCV | 410 |
CXCVI | 420 |
426 | |
Other editions - View all
Electronic Properties of Materials: An Introduction for Engineers Rolf E. Hummel Limited preview - 2013 |
Common terms and phrases
absorption alignment alloys amorphous Appendix atoms band gap band structure Brillouin zone calculated called Chapter charge conduction band conductors constant copper crystal cubic Curie temperature damping decreases density depletion layer devices diamagnetic dielectric diode direction doping effective mass elec electric field electron bands emission energy bands energy levels experimental Fermi energy ferromagnetic field strength Figure free electrons frequency function GaAs gap energy gate heat capacity holes increasing insulators interactions interband transitions intrinsic semiconductor ions laser lattice light magnetic field magnetic materials magnetic moment metal MOSFET n-type semiconductor number of electrons obtained optical properties orbiting oscillator paramagnetic particle phonons polarization polymers potential barrier reflected refraction region resistance result Schematic representation Schrödinger equation Section shown in Fig silicon solid solution spectrum spin superconducting transistor unit utilized valence band values vector velocity vibration voltage waveguide wavelength yields zero
Popular passages
Page iii - Hahn* •Department of Materials Science and Engineering, University of Florida, Gainesville, FL 3261 1...