Absence of itinerant ferromagnetism in a cobalt-based oxypnictide

Absence of itinerant ferromagnetism in a cobalt-based oxypnictide

We report a layered transition-metal-ordered oxypnictide Sr\(_{2}\)CrCoAsO\(_{3}\). The new material was synthesized by solid-state reactions under vacuum. It has an intergrowth structure with a perovskite-like Sr\(_3\)Cr\(_2\)O\(_6\) unit and ThCr\(_2\)Si\(_2\)-type SrCo\(_2\)As\(_2\) block stackin...

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Veröffentlicht in:arXiv.org 2024-09
Hauptverfasser: Hua-Xun, Li, Jiang, Hao, Yi-Qiang, Lin, Jia-Xin, Li, Shi-Jie, Song, Qin-Qing, Zhu, Ren, Zhi, Guang-Han Cao
Format: Artikel
Sprache:eng
Schlagworte:
Antiferromagnetism
Chemical synthesis
Crystallography
Electrical resistivity
Ferromagnetism
First principles
Magnetic permeability
Perovskites
Physics - Materials Science
Physics - Strongly Correlated Electrons
Strontium
Transition metals
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Zusammenfassung:We report a layered transition-metal-ordered oxypnictide Sr\(_{2}\)CrCoAsO\(_{3}\). The new material was synthesized by solid-state reactions under vacuum. It has an intergrowth structure with a perovskite-like Sr\(_3\)Cr\(_2\)O\(_6\) unit and ThCr\(_2\)Si\(_2\)-type SrCo\(_2\)As\(_2\) block stacking coherently along the crystallographic \(c\) axis. The measurements of electrical resistivity, magnetic susceptibility, and specific heat indicate metallic conductivity from the CoAs layers and short-range antiferromagnetic ordering in the CrO\(_{2}\) planes. No itinerant-electron ferromagnetism expected in CoAs layers is observed. This result, combined with the first-principles calculations and the previous reports of other CoAs-layer-based materials, suggests that the Co\(-\)Co bondlength plays a crucial role in the emergence of itinerant ferromagnetism.
ISSN:2331-8422
DOI:10.48550/arxiv.2409.06337