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Optimum inhomogeneity of local lattice distortions in La2CuO(4+y).


ABSTRACT: Electronic functionalities in materials from silicon to transition metal oxides are, to a large extent, controlled by defects and their relative arrangement. Outstanding examples are the oxides of copper, where defect order is correlated with their high superconducting transition temperatures. The oxygen defect order can be highly inhomogeneous, even in optimal superconducting samples, which raises the question of the nature of the sample regions where the order does not exist but which nonetheless form the "glue" binding the ordered regions together. Here we use scanning X-ray microdiffraction (with a beam 300 nm in diameter) to show that for La(2)CuO(4+y), the glue regions contain incommensurate modulated local lattice distortions, whose spatial extent is most pronounced for the best superconducting samples. For an underdoped single crystal with mobile oxygen interstitials in the spacer La(2)O(2+y) layers intercalated between the CuO(2) layers, the incommensurate modulated local lattice distortions form droplets anticorrelated with the ordered oxygen interstitials, and whose spatial extent is most pronounced for the best superconducting samples. In this simplest of high temperature superconductors, there are therefore not one, but two networks of ordered defects which can be tuned to achieve optimal superconductivity. For a given stoichiometry, the highest transition temperature is obtained when both the ordered oxygen and lattice defects form fractal patterns, as opposed to appearing in isolated spots. We speculate that the relationship between material complexity and superconducting transition temperature T(c) is actually underpinned by a fundamental relation between T(c) and the distribution of ordered defect networks supported by the materials.

SUBMITTER: Poccia N 

PROVIDER: S-EPMC3465392 | biostudies-literature | 2012 Sep

REPOSITORIES: biostudies-literature

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Optimum inhomogeneity of local lattice distortions in La2CuO(4+y).

Poccia Nicola N   Ricci Alessandro A   Campi Gaetano G   Fratini Michela M   Puri Alessandro A   Di Gioacchino Daniele D   Marcelli Augusto A   Reynolds Michael M   Burghammer Manfred M   Saini Naurang Lal NL   Aeppli Gabriel G   Bianconi Antonio A  

Proceedings of the National Academy of Sciences of the United States of America 20120907 39


Electronic functionalities in materials from silicon to transition metal oxides are, to a large extent, controlled by defects and their relative arrangement. Outstanding examples are the oxides of copper, where defect order is correlated with their high superconducting transition temperatures. The oxygen defect order can be highly inhomogeneous, even in optimal superconducting samples, which raises the question of the nature of the sample regions where the order does not exist but which nonethel  ...[more]

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