Neutrons in Disordered Matter: Proceedings Euroconference '94 : Stockholm, Sweden, 9-13 June, 1994Monique Dahlborg, Ulf Dahlborg |
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Page 61
... Hydrogen in amorphous metals : Ti84Si16 For the investigation of materials containing hydrogen we have to rely on neutron scattering because X - rays do not probe the light hydrogen atoms . In addition , the isotopic substitution ...
... Hydrogen in amorphous metals : Ti84Si16 For the investigation of materials containing hydrogen we have to rely on neutron scattering because X - rays do not probe the light hydrogen atoms . In addition , the isotopic substitution ...
Page 107
... hydrogen ( or deuterium ) solubility , and also because of the unusually high hydrogen self - diffusion con- stants in these materials . For the case of a - NbH ,, the influ- ence of the interstitially dissolved hydrogen on the host ...
... hydrogen ( or deuterium ) solubility , and also because of the unusually high hydrogen self - diffusion con- stants in these materials . For the case of a - NbH ,, the influ- ence of the interstitially dissolved hydrogen on the host ...
Page 140
... hydrogen are given in Tables I and II . For the experimen- tally measured bulk number density ( 0.14 atoms Å ̄ ) the average co - ordination numbers obtained are : 2.12 for carbon and 0.90 for hydrogen . These are lower than Number of ...
... hydrogen are given in Tables I and II . For the experimen- tally measured bulk number density ( 0.14 atoms Å ̄ ) the average co - ordination numbers obtained are : 2.12 for carbon and 0.90 for hydrogen . These are lower than Number of ...
Common terms and phrases
Ź alloys amorphous analysis atoms behaviour binary bond angle bond length calculated carbon black chain Chem clusters configuration contribution coordination number correlation functions corresponding Cryst crystal crystalline curves determined diffraction data diffuse scattering disorder distances distribution function doped dynamics EISF elastic electronic energy EXAFS experimental data experiments fractal graphite hydration hydrogen ice Ih intensity interaction interatomic lattice layer liquid Me-O measured melt metallic glasses metalloid method molecular molecules neighbours neutron diffraction neutron scattering Ni-Nb Ni-Ni observed obtained oxygen pair correlation functions partial structure factors peak phase photons Phys Physica Scripta Physics polymer potential Q range Qmax radial distribution function Reverse Monte Carlo Rietveld refinement RMC model rotation sample scat scattering length short range order shown simulation solid structural parameters structure factor surface surfactant symmetry Table temperature tering tion titanium dioxide total structure factor X-ray