Treatise on Materials Science and Technology, Volume 2 |
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Page 10
The potential energy per overgrowth atom in the reference configuration VgA = {
Bb – EBA ( 2 . 8 ) is supposed to depend purely on the fundamental interaction ,
independent of real strain or misfit , and may be disregarded in any procedure of
...
The potential energy per overgrowth atom in the reference configuration VgA = {
Bb – EBA ( 2 . 8 ) is supposed to depend purely on the fundamental interaction ,
independent of real strain or misfit , and may be disregarded in any procedure of
...
Page 52
... the continuum approximation . It is somewhat of a consolation that the energy
associated with this region is a small fraction of the total , at least when
dislocations are widely spaced . 4 . REFERENCE LATTICE Recall that the
reference lattice ...
... the continuum approximation . It is somewhat of a consolation that the energy
associated with this region is a small fraction of the total , at least when
dislocations are widely spaced . 4 . REFERENCE LATTICE Recall that the
reference lattice ...
Page 160
13 ) N It is imagined that a reference lattice of exactly the same lattice parameter
as the averaged lattice is referred to the real crystal , thus allowing a one - to -
one correspondence of reference lattice sites R , and actual lattice sites R , + $ .
13 ) N It is imagined that a reference lattice of exactly the same lattice parameter
as the averaged lattice is referred to the real crystal , thus allowing a one - to -
one correspondence of reference lattice sites R , and actual lattice sites R , + $ .
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Contents
Epitaxial Interfaces | 3 |
Thin Films | 15 |
Semiinfinite Overgrowths | 52 |
Copyright | |
10 other sections not shown
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Common terms and phrases
angle anisotropy approximation assumed atoms average axis c-site calculated cations coherent compounds concentration condition considerations constants contribution corresponding crystal curve decreases defect density dependence determined diffusion direction discussed dislocations displacement effect elastic elastic scattering electron energy equation et al experimental experiments factor field flux flux lines follows force function garnets given gives important impurity increases interaction interface ions lattice limit magnetic materials measured Merwe metal method misfit mode neutron normal observed obtained optical parameter phase phonon Phys plane position potential present processes properties range reference region resolution respectively sample scattering cross section shown shows single solid solution space strain stress structure substrate superconducting surface Table temperature tetrahedral theory thermal thickness transition unit values vector wave X-ray
Bibliographic information
| Title | Treatise on Materials Science and Technology, Volume 2 Treatise on Materials Science and Technology, Herbert Herman |
| Editor | Herbert Herman |
| Publisher | Academic Press, 1972 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| Export Citation | BiBTeX EndNote RefMan |