Treatise on Materials Science and TechnologyHerbert Herman |
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Page 77
... spacing P ( N ) in each interface are and m = M / N ( 7.5 ) ( 7.6 ) P ( N ) = Np where p was their spacing in the original interface . It should be noted that while the conservation principle must be met at all times , the dislocation ...
... spacing P ( N ) in each interface are and m = M / N ( 7.5 ) ( 7.6 ) P ( N ) = Np where p was their spacing in the original interface . It should be noted that while the conservation principle must be met at all times , the dislocation ...
Page 271
... spacing was given recently by Petermann ( 1970a , b ) , who observed a maximum in the pinning force vs. B plot where half the spacing of the Pb , Na precipitates in a Pb- matrix was equal to [ 1.16 ( o / B ) ] , the flux line spacing ...
... spacing was given recently by Petermann ( 1970a , b ) , who observed a maximum in the pinning force vs. B plot where half the spacing of the Pb , Na precipitates in a Pb- matrix was equal to [ 1.16 ( o / B ) ] , the flux line spacing ...
Page 333
... spacing in the unstrained film , and Ad1 is the difference between the lattice spacing in the strained and in the unstrained condition . It was found that ε is -2.1 x 10-3 . The strain parallel to the film surface el is calculated to be ...
... spacing in the unstrained film , and Ad1 is the difference between the lattice spacing in the strained and in the unstrained condition . It was found that ε is -2.1 x 10-3 . The strain parallel to the film surface el is calculated to be ...
Contents
Epitaxial Interfaces | 3 |
Thin Films | 15 |
Semiinfinite Overgrowths | 37 |
Copyright | |
11 other sections not shown
Common terms and phrases
a-site alloy Amer anisotropy Appl approximation atoms average axis B₁ Bragg Bragg reflections c-sites calculated cations coefficients coherent compounds concentration configuration constant Cooper pairs curve Debye-Waller factor defect density dependence discussed displacement elastic electron energy epitaxial equation experimental factor ferrimagnetic field film flux lines function garnet garnet structure GdIG Geller IAEA impurity Inelastic Scattering interaction interface iron garnets k₁ lattice constant lattice parameter Lett magnetic magnetocrystalline anisotropy measured Merwe method misfit misfit dislocations mode neutron scattering normal obtained overgrowth phase phonon Phys plane potential Proc properties rare earth rare earth ions reciprocal lattice resolution sample scattering cross section shown in Fig single crystal small angle solid strain stress sublattice substrate superconducting surface symmetry Table temperature tetrahedral thermal thickness transition metal values vector X-ray YGaG