Tensile Microstrain Fluctuations in the BaPbO Units in Superconducting BaPb1−xBixO3 by Scanning Dispersive Micro-XANES

IF 1.9 Q3 PHYSICS, CONDENSED MATTER

Condensed Matter Pub Date : 2023-07-11 DOI:10.3390/condmat8030057

Ruben Albertini, S. Macis, A. Ivanov, A. Menushenkov, A. Puri, V. Monteseguro, Boby Joseph, Wei Xu, A. Marcelli, P. Giraldo-Gallo, I. Fisher, A. Bianconi, G. Campi

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Abstract

BaPb1−xBixO3 (BPBO) bismuthate, showing high TC superconductivity for 0.05 < x < 0.35, is an archetypal system for studying the complex inhomogeneity of perovskite lattice favoring the emergence of quantum coherence, called the superstripes phase. Local lattice fluctuations, detected by EXAFS; nanoscale stripes, detected by electron microscopy; and two competing crystalline structures, detected by diffraction, are known to characterize the superconducting phase. At nanoscale [BaBiO3] centered nanoscale units (BBO) coexist with BaPbO3 centered (BPO) units in the BPBO perovskite; therefore, we expect a tensile microstrain in BPO units due the misfit strain between the two different lattices. Here, we report the measurement of the spatial micro-fluctuations of the local tensile microstrain ε in the BaPO units in superconducting Ba(Pb1−xBix)O3 crystals with x1 = 0.19 an x2 = 0.28. We show here the feasibility of applying the scanning dispersive micro-X-ray absorption near edge structure (SdμXANES) technique, using focused synchrotron radiation, to probe the microscale spatial fluctuations of the microstrain in BPO units. This unconventional real-space SdμXANES microscopy at the Pb L3 edge has been collected in the dispersive mode. Our experimental method allows us to measure either the local Bi chemical concentration x and the local lattice microstrain of local BBO and BPO units. The 5 × 5 micron-size spots from the focused X-ray beam allowed us to obtain maps of 1600 points covering an area of 200 × 200 microns. The mapping shows a substantial difference between the spatial fluctuations of the microstrain ε and the chemical inhomogeneity x. Moreover, we show the different relations ε(x) in samples with lower (x1 = 0.19) and higher (x2 = 0.28) doping respect to the optimum doping (x = 0.25).

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扫描分散微XANES研究BaPb1−xBixO3超导材料中BaPbO单元的拉伸微应变

BaPb1−xBixO3（BPBO）铋酸盐显示出0.05＜x＜0.35的高TC超导性，是研究钙钛矿晶格复杂不均匀性的原型系统，有利于量子相干性的出现，称为超成熟相。EXAFS检测到的局部晶格波动；电子显微镜检测到的纳米级条纹；通过衍射检测到的两种相互竞争的晶体结构可以表征超导相。在纳米尺度上，以[BaBiO3]为中心的纳米尺度单元（BBO）与以BaPbO3为中心的（BPO）单元共存于BPBO钙钛矿中；因此，我们预计由于两个不同晶格之间的失配应变，BPO单元中会出现拉伸微应变。在这里，我们报道了在x1=0.19和x2=0.28的超导Ba（Pb1−xBix）O3晶体中BaPO单元中局部拉伸微应变ε的空间微波动的测量。我们在这里展示了应用扫描色散微X射线吸收近边缘结构（SdμXANES）技术，使用聚焦同步辐射，探测BPO单元中微应变的微尺度空间波动的可行性。这种在Pb L3边缘的非常规实空间SdμXANES显微镜是以色散模式收集的。我们的实验方法使我们能够测量局部Bi化学浓度x以及局部BBO和BPO单元的局部晶格微应变。来自聚焦X射线束的5×5微米大小的斑点使我们能够获得覆盖200×200微米区域的1600个点的地图。该映射显示了微应变ε和化学不均匀性x之间的空间波动之间的显著差异。此外，我们显示了较低（x1=0.19）和较高（x2=0.28）掺杂的样品中的ε（x）与最佳掺杂（x=0.25）的不同关系。

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