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Autori principali: Meng, Xianghui, Shen, Yanqing, Yang, Xin, Wang, Xinyu, Ai, Qing, Shuai, Yong, Zhou, Zhongxiang
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.05497
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author Meng, Xianghui
Shen, Yanqing
Yang, Xin
Wang, Xinyu
Ai, Qing
Shuai, Yong
Zhou, Zhongxiang
author_facet Meng, Xianghui
Shen, Yanqing
Yang, Xin
Wang, Xinyu
Ai, Qing
Shuai, Yong
Zhou, Zhongxiang
contents Traditionally, strong quantum anharmonic effects have been considered a characteristic of hydrogen-rich compounds. Here we propose that these effects also play a decisive role in boron-carbon clathrates. The stability and superconducting transition temperature (Tc) of carbon-boron clathrates XYB6C6, whose metal atoms have an average oxidation state of +1.5, have long remained under debate. At this oxidation state, some combinations (e.g., RbSrB6C6) are dynamically stable, whereas others (e.g., RbPbB6C6) are not. Using the stochastic self-consistent harmonic approximation combined with machine learning, we find that the anharmonicity originates primarily from guest metal atoms. For comparison, we find that quantum fluctuations have negligible influence on SrB3C3, but remove the lattice instability of RbPbB6C6. The predicted Tc of RbPbB6C6 (88 K) is nearly twice that of SrB3C3. Moreover, RbPbB6C6 exhibits two-gap superconductivity due to the higher C/B ratio in the density of states at the Fermi level compared to SrB3C3, weakening the sp3 hybridization. These findings demonstrate that quantum anharmonicity crucially governs the stability and superconductivity of XYB6C6 clathrates.
format Preprint
id arxiv_https___arxiv_org_abs_2512_05497
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Guest metal-driven quantum anharmonic effects on stability and two-gap superconductivity in carbon-boron clathrates
Meng, Xianghui
Shen, Yanqing
Yang, Xin
Wang, Xinyu
Ai, Qing
Shuai, Yong
Zhou, Zhongxiang
Superconductivity
Traditionally, strong quantum anharmonic effects have been considered a characteristic of hydrogen-rich compounds. Here we propose that these effects also play a decisive role in boron-carbon clathrates. The stability and superconducting transition temperature (Tc) of carbon-boron clathrates XYB6C6, whose metal atoms have an average oxidation state of +1.5, have long remained under debate. At this oxidation state, some combinations (e.g., RbSrB6C6) are dynamically stable, whereas others (e.g., RbPbB6C6) are not. Using the stochastic self-consistent harmonic approximation combined with machine learning, we find that the anharmonicity originates primarily from guest metal atoms. For comparison, we find that quantum fluctuations have negligible influence on SrB3C3, but remove the lattice instability of RbPbB6C6. The predicted Tc of RbPbB6C6 (88 K) is nearly twice that of SrB3C3. Moreover, RbPbB6C6 exhibits two-gap superconductivity due to the higher C/B ratio in the density of states at the Fermi level compared to SrB3C3, weakening the sp3 hybridization. These findings demonstrate that quantum anharmonicity crucially governs the stability and superconductivity of XYB6C6 clathrates.
title Guest metal-driven quantum anharmonic effects on stability and two-gap superconductivity in carbon-boron clathrates
topic Superconductivity
url https://arxiv.org/abs/2512.05497