Fumiaki Kato, Urara Maruoka, Akitoshi Nakano, Taishun Manjo, Daisuke Ishikawa, Alfred Q. R. Baron, Yukio Yasui, Takumi Hasegawa, Ichiro Terasaki
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引用次数: 0
摘要
通过结合化学置换、传输测量和非弹性 X 射线散射,研究了半金属 Ta2PdSe6 的热特性。研究发现,维德曼-弗朗茨定律(WFL)遭到严重破坏,而该定律确定了金属导电性和导热性之间的关系。这种违反导致 Ta2PdSe6 的热导率低于 WFL 的预期值,电阻率低于 20 K,从而使其成为迄今为止 p 型热电材料中低于 20 K 的最高性能指标。此外,电阻率和热电阻率显示了非费米液体般的温度依赖性,表明了一种奇特的电子状态,其热量和电荷载流子的散射过程是非常规的。这项研究表明,非费米液体态的半金属可能是一个有趣的平台,不仅能用于基础物理学,还能探索适合低温应用的新型热电材料。
Enhanced Cryogenic Thermoelectricity in Semimetal Ta2PdSe6 through Non-Fermi Liquid-Like Charge and Heat Transport
The thermal properties of semimetal Ta2PdSe6 are studied, which exhibits a large thermoelectric power factor at low temperatures, by combining chemical substitution, transport measurements, and inelastic X-ray scattering. A serious violation of the Wiedemann-Franz law (WFL) is observed, which establishes the relationship between conductivity and thermal conductivity of metals. This violation leads to a thermal conductivity of Ta2PdSe6 lower than expected from the WFL and resistivity below 20 K, resulting in the highest figure of merit below 20 K among the p-type thermoelectric materials thus far. Furthermore, electric and thermal resistivity show a non-Fermi liquid-like temperature dependence, indicating an exotic electronic state with an unconventional scattering process for heat and charge carriers. This study suggests that semimetals in the non-Fermi liquid regime may be an intriguing platform, not only for fundamental physics but also for exploring novel thermoelectric materials tailored for low-temperature applications.
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