Neutron Diffraction Study of Layered Nickelates Pr4Ni3−xCoxO8 for High-Temperature Superconductor Candidate

IF 1.5 4区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Journal of the Physical Society of Japan Pub Date : 2024-01-26 DOI:10.7566/jpsj.93.024709

Tomonori Miyatake, Yuki Wako, Ryota Abe, Satoru Tsukamoto, Masatomo Uehara

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Abstract

Layered nickelate R₄Ni₃O₈ (R = La, Pr, Nd, Sm) is a candidate for a high-temperature superconductor because its crystal structure and electronic state are very similar to high-temperature superconducting cuprates. We have performed carrier tuning by chemical substitution to Ni sites to bring the electronic states of Ni closer to that of Cu in superconducting cuprates. We aim to substitute the specific Ni sites for carrier tuning without disturbing the NiO₂ planes. In this study, we perform neutron powder diffraction experiments for the Pr₄Ni₃₋_xCo_xO₈ samples with doping Co for Ni sites to investigate the dopant distribution among the Ni sites. Rietveld analysis showed a tendency to preferentially occupy specific Ni sites when the doping level was low, but this is not the case for higher doping levels. We also analyzed the oxygen deficiency and found no oxygen deficiency in the NiO₂ planes with lower chemical substitutions, indicating that the relatively undisturbed conduction planes were maintained. Finally, we discuss the effects of Co doping into NiO₂ planes for the physical properties of R₄Ni₃O₈.

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层状镍酸盐 Pr4Ni3-xCoxO8 用作高温超导体候选材料的中子衍射研究

层状镍酸盐 R4Ni3O8（R = La、Pr、Nd、Sm）是高温超导体的候选物质，因为它的晶体结构和电子状态与高温超导铜酸盐非常相似。我们通过对镍位点的化学置换进行了载流子调谐，使镍的电子状态更接近超导铜酸盐中铜的电子状态。我们的目标是在不干扰二氧化镍平面的情况下，替代特定的镍位点进行载流子调谐。在本研究中，我们对掺入 Co 的 Pr4Ni3-xCoxO8 样品进行了中子粉末衍射实验，以研究掺杂剂在 Ni 位点之间的分布。里特维尔德分析表明，当掺杂水平较低时，掺杂剂倾向于优先占据特定的镍位点，但当掺杂水平较高时，情况并非如此。我们还分析了缺氧情况，发现化学取代度较低的二氧化镍平面没有缺氧现象，这表明相对未受干扰的传导平面得以保持。最后，我们讨论了在 NiO2 平面中掺入 Co 对 R4Ni3O8 物理性质的影响。

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来源期刊

Journal of the Physical Society of Japan 物理-物理：综合

CiteScore

3.40

自引率

17.60%

发文量

325

审稿时长

3 months

期刊介绍： The papers published in JPSJ should treat fundamental and novel problems of physics scientifically and logically, and contribute to the development in the understanding of physics. The concrete objects are listed below. Subjects Covered JPSJ covers all the fields of physics including (but not restricted to) Elementary particles and fields Nuclear physics Atomic and Molecular Physics Fluid Dynamics Plasma physics Physics of Condensed Matter Metal, Superconductor, Semiconductor, Magnetic Materials, Dielectric Materials Physics of Nanoscale Materials Optics and Quantum Electronics Physics of Complex Systems Mathematical Physics Chemical physics Biophysics Geophysics Astrophysics.