通过钼和钨替代稳定 ReC 中的常压岩石盐晶体结构和高临界场超导性

arXiv - PHYS - Superconductivity Pub Date : 2024-09-05 DOI:arxiv-2409.03592

P. K. Meena, S. Jangid, R. K. Kushwaha, P. Manna, S. Sharma, P. Mishra, R. P. Singh

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摘要

过渡金属基碳化物（TMC）以其优异的硬度、机械强度和热性能而闻名，最近已成为拓扑超导性的理想候选材料。在这项研究中，我们通过在 Re-site 处取代 Mo 或 W，在常压下在 NaCl 结构中合成了 ReC。我们利用磁化、电阻率和比热测量方法研究了 Re$_{1-x}$T$_{x}$C（其中 T = Mo、W）在 $x = 0.5$ 时的超导特性。这些化合物显示出具有高临界场的 II 型、全间隙、弱耦合超导性，使它们成为常压超导超硬材料的新成员，并为极端条件下的超导设备应用铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Stabilization of Ambient Pressure Rocksalt Crystal Structure and High Critical Field Superconductivity in ReC via Mo and W Substitution

Transition-metal-based carbides (TMCs), renowned for their exceptional hardness, mechanical strength, and thermal properties, have recently emerged as promising candidates for topological superconductivity. In this study, we synthesized ReC in the NaCl structure at ambient pressure by substituting Mo or W at the Re-site. We investigated the superconducting properties of Re$_{1-x}$T$_{x}$C (where T = Mo, W) for $x = 0.5$ using magnetization, resistivity and specific heat measurements. These compounds display type-II, fully gapped, weakly coupled superconductivity with high critical fields, establishing them as new members of superconducting ultra-hard materials at ambient pressure and paving the way for superconducting device applications under extreme conditions.

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arXiv - PHYS - Superconductivity

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