01990    a2200241   4500020001500000020001500015040001300030082001100043082001200054082001100066100002100077245005700098250001200155260003900167300003400206500002000240500009300260500002400353505098700377505025501364650005101619856007801670  a047141526X  a0471680575  aDLCbDLC  a530.41  a530.4/1  a530.411 aKittel, Charles.10aIntroduction to solid state physicscCharles Kittel.  a8th ed.  aHoboken, N.J. :bJ. Wiley,cc2005.  axix, 680 p. :bill. ;c25 cm.  aIncludes index.  a"Chapter 18, Nanostructures, was written by Professor Paul McEuen of Cornell University"  aText on end papers.0 aCh. 1. Crystal structure -- Ch. 2. Wave diffraction and the reciprocal lattice -- Ch. 3. Crystal binding and elastic constants -- Ch. 4. Phonons I : crystal vibrations -- Ch. 5. Phonons II : thermal properties -- Ch. 6. Free electron Fermi gas -- Ch. 7. Energy bands -- Ch. 8. Semiconductor crystals -- Ch. 9. Fermi surfaces and metals -- Ch. 10. Superconductivity -- Ch. 11. Diamagnetism and paramagnetism -- Ch. 12. Ferromagnetism and antiferromagnetism -- Ch. 13. Magnetic resonance -- Ch. 14. Plasmons, polaritons, and polarons -- Ch. 15. Optical processes and excitons -- Ch. 16. Dielectrics and ferroelectrics -- Ch. 17. Surface and interface physics -- Ch. 18. Nanostructures -- Ch. 19. Noncrystalline solids -- Ch. 20. Point defects -- Ch. 21. Dislocations -- Ch. 22. Alloys -- App. A. Temperature dependence of the reflection lines -- App. B. Ewald calculation of lattice sums -- App. C. Quantization of elastic waves : phonons -- App. D. Fermi-Dirac distribution function.0 aApp. E. Derivation of the dk/dt equation -- App. F. Boltzmann transport equation -- App. G. Vector potential, field momentum, and gauge transformations -- App. H. Cooper pairs -- App. I. Ginzburg-Landau equation -- App. J. Electron-phonon collisions. 0aSolid state physicscProblems, exercises, etc.413Table of contentsuhttp://www.loc.gov/catdir/toc/wiley041/2004042250.html