Influence of Stacking Faults and Temperature on the Structure of Y2Ba4Cu7O15, Investigated by High-Resolution Neutron Diffraction and Electron Microscopy

Abstract

The temperature dependence of the structure of the high-Tcsuperconductor Y2Ba4Cu7O15−δ(Y-247) has been studied by high-resolution neutron powder diffraction. This structure can be described as alternating single CuO chain (123) and double CuO chain (124) blocks. Two fully oxidized polycrystalline Y-247 samples withTc,onset= 94.8 and 89.3 K, prepared by a sol–gel technique at 1 atm oxygen pressure, were investigated in the temperature range from 5 to 100 K, and the structural changes were determined by Rietveld analysis. The oxygen content was found to be equal in both samples but the unit cell parameters and interatomic bond distances differed significantly. The structural changes with temperature in the compound withTc,onset≈ 95 K showed that the displacements of the apical oxygen in the 123 and 124 blocks are different. In agreement with the decreased coherence length along thecaxis detected by neutron diffraction, electron diffraction studies showed considerable streaking in the sample withTc= 89 K whereas the sample withTc= 95 K was more ordered. High-resolution electron microscopy studies indicated that the reason for streaking are stacking faults in the –123–124–123–124– sequence that build up the structure.