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对Zn,Ni,Mg高掺杂的La1.85Sr0.15CuO4(LSCO)超导体的X射线衍射谱进行了仔细的分析,从而获得了各掺杂样品的晶格常量、原子结构参量及衍射的峰形参量,比较了不同掺杂所引起的晶体结构的差异,计算了由于掺杂所产生的晶格内部的微应变,结果表明非磁性金属Zn,Mg掺杂比磁性金属Ni掺杂更强烈地抑制了LSCO的超导电性可能与材料中晶格的微应变有关.
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关键词:
- La1.85Sr0.15CuO4 /
- 磁、非磁掺杂 /
- 原子结构参量 /
- 晶格微应变
We successfully synthesized La1.85Sr0.15Cu1-xMxOy (M=Zn,Ni,Mg) with y≤0.30 ceramic cuprates. X-ray diffraction studies show that there is no impurity phase in all Zn,Ni,Mg-doped LSCO. Rietveld refinement technique is used to obtain the lattice constant,atomic position coordinates and reflection profile parameters for all samples. There is a tetragonal-to-orthorhombic phase transition in the range of 0.10c of the samples in superconducting state.-
Keywords:
- La1.85Sr0.15CuO4 /
- magnetic and non-magnetic doping /
- atomic structural parameters /
- microstrain
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中国物理学会期刊
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