Role of the perovskite-like lattice in the high-temperature superconductor mechanism: EXAFS data analysis. Journal of Surface Investigation Volume 7, Issue 3, May 2013, Pages 407-421

14 сентября 2018
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Контактные данные автора публикации Menushenkov, A.P.a, Kuznetsov, A.V.a, Chernikov, R.V.b, Ivanov, A.A.a, Sidorov, V.V.a, Klementiev, K.V.c a National Research Nuclear University MEPhI, Moscow, Russian Federation b HASYLAB, DESY, D-22603 Hamburg, Germany c CELLS ALBA synchrotro
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The temperature-dependent extended X-ray absorption fine structure (EXAFS) spectra of hole- and electron-doped high-temperature superconductors (La2 - x Srx CuO4 and Nd2 - x Cex CuO4 - δ, respectively) are investigated above the CuK absorption edge. It is demonstrated that, for superconducting compounds (x = 0.15), the part of the oxygen ions in the CuO2 plane oscillates in the double-well potential, and their oscillations are correlated with the charge-carrier transport. The presented data indicate the direct relation between the experimentally observed local dynamic structural inhomogeneity and the local dynamic charge ordering. A phenomenological description of the correlation between the local electronic and local crystalline structures, which enables us to reveal the role of collective oxygen-ion oscillations inherent to the perovskite-like lattice in the establishment of the superconducting state in doped La2 CuO4 and Nd2 CuO4, is proposed to explain the experimental results. © 2013 Pleiades Publishing, Ltd.
Indexed keywords
Charge-carrier transport; Double-well potential; Electron-doped high-temperature superconductors; Extended x-ray absorption fine structure spectrum; Phenomenological description; Structural inhomogeneities; Superconducting compounds; Superconducting state
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