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W1988466730 endingPage "2896" @default.
W1988466730 startingPage "2876" @default.
W1988466730 abstract "Extended-x-ray-absorption-fine-structure (EXAFS) data on the normal and superionic phases of AgI and the cuprous halides have been analyzed using four structural models: harmonic oscillator, displaced site, anharmonic oscillator, and excluded volume. The most satisfactory description is obtained with the last model, based upon a softened hard-sphere pair potential. The results indicate that the tetrahedral locations in the halogen lattice are preferred by the mobile cations, but that at elevated temperatures substantial cation density also occurs at bridging trigonal sites. For fcc immobile-ion lattices, significant octahedral occupation is also found at elevated temperatures. These results indicate that the likely conduction path between tetrahedral sites is in the $〈110〉$ directions for bcc materials and in the $〈111〉$ directions for fcc materials. The potential-energy barrier heights for conduction in various directions are obtained from the ion density. In addition, differences in the nature of the structural information probed by EXAFS and by diffraction techniques are discussed." @default.
W1988466730 created "2016-06-24" @default.
W1988466730 creator A5009710795 @default.
W1988466730 creator A5010433466 @default.
W1988466730 creator A5012274664 @default.
W1988466730 date "1981-03-15" @default.
W1988466730 modified "2023-10-09" @default.
W1988466730 title "Extended-x-ray-absorption-fine-structure investigation of mobile-ion density in superionic AgI, CuI, CuBr, and CuCl" @default.
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W1988466730 cites W1987209049 @default.
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W1988466730 cites W1997043420 @default.
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W1988466730 doi "https://doi.org/10.1103/physrevb.23.2876" @default.
W1988466730 hasPublicationYear "1981" @default.
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