Introduction to Solid State Physics |
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Page 74
tion w = vok ( cf . 4 . 9 ) valid for the equivalent homogeneous line . In this
approximation dk / dw is simply 1 / vo , and we have ( 5 . 11 ) U - Lm hw TTVO Jo
chwkt – 1 dw . The upper limit to the integral , wm , is here to be determined by
the ...
tion w = vok ( cf . 4 . 9 ) valid for the equivalent homogeneous line . In this
approximation dk / dw is simply 1 / vo , and we have ( 5 . 11 ) U - Lm hw TTVO Jo
chwkt – 1 dw . The upper limit to the integral , wm , is here to be determined by
the ...
Page 94
9 ) di = pi / Emoci where the subscript i refers to a particular type of atom . tion is
then P = 2 El Nidi , The polarizawhere Ni is the number per unit volume of atoms
of type i . If the local field is connected with the applied field by the Lorentz ...
9 ) di = pi / Emoci where the subscript i refers to a particular type of atom . tion is
then P = 2 El Nidi , The polarizawhere Ni is the number per unit volume of atoms
of type i . If the local field is connected with the applied field by the Lorentz ...
Page 168
tion of the static magnetic field , and energy is absorbed strongly from the r - f
transverse field when its frequency is equal to the precessional frequency . We
may equally well think of the macroscopic vector representing the total spin of the
...
tion of the static magnetic field , and energy is absorbed strongly from the r - f
transverse field when its frequency is equal to the precessional frequency . We
may equally well think of the macroscopic vector representing the total spin of the
...
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Contents
LATTICE ENERGY OF IONIC CRYSTALS | 29 |
ELASTIC CONSTANTS OF CRYSTALS | 43 |
LATTICE VIBRATIONS | 60 |
Copyright | |
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Common terms and phrases
alloy applied approximation atoms axes axis band boundary calculated cell chapter charge chloride condition conductivity consider constant crystal cubic defined dependence determined dielectric diffusion direction discussed dislocations displacement distance distribution domains effect elastic electric electron energy equal equation equilibrium example excitation experimental expression factor field force frequency function given gives heat holes interaction ionic ions lattice levels London magnetic magnetic field material mean measurements mechanism metals method molecules motion negative neighbor normal observed obtained parallel particles Phys physical plane polarization positive possible potential problem properties quantum range reference reflection region relation resistivity result room temperature scattering Show shown in Fig sodium solids space specimen stress structure suppose Table temperature theory thermal tion transition unit usually vacancy values volume wave zero
Bibliographic information
| Title | Introduction to Solid State Physics Wiley series on the science and technology of materials |
| Author | Charles Kittel |
| Edition | 2 |
| Publisher | Wiley, 1953 |
| Original from | the University of Michigan |
| Digitized | 21 Nov 2007 |
| Length | 396 pages |
| Export Citation | BiBTeX EndNote RefMan |