Nanoscale Energy Transport and Conversion: A Parallel Treatment of Electrons, Molecules, Phonons, and PhotonsOxford University Press, 3 במרץ 2005 - 560 עמודים This is a graduate level textbook in nanoscale heat transfer and energy conversion that can also be used as a reference for researchers in the developing field of nanoengineering. It provides a comprehensive overview of microscale heat transfer, focusing on thermal energy storage and transport. Chen broadens the readership by incorporating results from related disciplines, from the point of view of thermal energy storage and transport, and presents related topics on the transport of electrons, phonons, photons, and molecules. This book is part of the MIT-Pappalardo Series in Mechanical Engineering. |
תוכן
XI | 37 |
XII | 43 |
XIII | 44 |
XIV | 46 |
XV | 52 |
XVI | 70 |
XVII | 72 |
XIX | 73 |
XX | 77 |
XXI | 78 |
XXII | 91 |
XXIII | 100 |
XXIV | 105 |
XXV | 109 |
XXVI | 115 |
XXVII | 116 |
XXVIII | 117 |
XXIX | 119 |
XXX | 121 |
XXXI | 122 |
XXXII | 135 |
XXXIII | 146 |
XXXIV | 148 |
XXXV | 151 |
XXXVI | 152 |
XXXVII | 153 |
XXXVIII | 157 |
XXXIX | 158 |
XL | 167 |
XLI | 183 |
XLII | 192 |
XLIII | 196 |
XLIV | 202 |
XLV | 214 |
XLVI | 216 |
XLVII | 218 |
XLVIII | 221 |
XLIX | 225 |
LI | 226 |
LII | 231 |
LIII | 240 |
LIV | 260 |
LXIII | 311 |
LXIV | 315 |
LXV | 329 |
LXVI | 334 |
LXVII | 336 |
LXVIII | 338 |
LXIX | 342 |
LXX | 346 |
LXXII | 347 |
LXXIII | 365 |
LXXIV | 371 |
LXXVI | 384 |
LXXVII | 393 |
LXXVIII | 394 |
LXXIX | 396 |
LXXX | 399 |
LXXXI | 402 |
LXXXII | 403 |
LXXXIII | 414 |
LXXXIV | 431 |
LXXXV | 436 |
LXXXVI | 441 |
LXXXVII | 443 |
LXXXVIII | 445 |
LXXXIX | 447 |
XC | 450 |
XCII | 451 |
XCIII | 456 |
XCIV | 460 |
XCV | 481 |
XCVI | 484 |
XCVII | 492 |
XCVIII | 494 |
XCIX | 496 |
500 | |
CI | 503 |
CIII | 507 |
CV | 511 |
528 | |
529 | |
מהדורות אחרות - הצג הכל
מונחים וביטויים נפוצים
absorption acoustic approximation assume atoms average bandgap blackbody Boltzmann equation boundary conditions bulk calculate called carriers chapter chemical potential Chen coefficient conduction band constant coordinates crystal Debye density derived diffusion discussed distribution function effects electrons and phonons emission energy levels ensemble equations of motion equilibrium example expression Fermi level flow frequency heat conduction heat flux heat transfer inside integration interaction interface kinetic lattice layer liquid materials mean free path medium molecular dynamics molecular dynamics simulation molecules momentum n-type nanoscale nanostructures nonequilibrium obtained optical p-n junction particle phase Physical Review plane propagation radiative recombination region relaxation scattering Schrödinger equation semiconductor shown in figure silicon solid solution space specific heat structure superlattices surface temperature term theory thermal boundary resistance thermal conductivity thermal radiation thermodynamic thermoelectric thickness thin films valence band vector velocity vibrational wavefunction wavelength wavevector zero