1. Superconductivity of novel tin hydrides (Sn$_n$H$_m$) under pressure
- Author
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Esfahani, M. Mahdi Davari, Wang, Zhenhai, Oganov, Artem R., Dong, Huafeng, Zhu, Qiang, Wang, Shengnan, Rakitin, Maksim S., and Zhou, Xiang-Feng
- Subjects
Condensed Matter - Superconductivity - Abstract
With the motivation of discovering high-temperature superconductors, evolutionary algorithm is employed to search for all stable compounds in the Sn-H system. In addition to the traditional SnH$_4$, new hydrides SnH$_8$, SnH$_{12}$ and SnH$_{14}$ are found to be thermodynamically stable at high pressure. Dynamical stability and superconductivity of tin-hydrides are systematically investigated. I$\bar{4}$m2-SnH$_8$, C2/m-SnH$_{12}$ and C2/m-SnH$_{14}$ exhibit higher superconducting transition temperatures of 81, 93 and 97 K compared to the traditional compound SnH$_4$ with T$_c$ of 52 K at 200 GPa. An interesting bent H$_3^-$ in I$\bar{4}$m2-SnH$_8$ and novel liner H$_4^-$ in C2/m-SnH$_{12}$ are observed. All the new tin-hydrides remain metallic over their predicted range of stability. The intermediate-frequency wagging and bending vibrations have more contribution to electron-phonon coupling parameter than high-frequency stretching vibrations of H$_2$ and H$_3$., Comment: 8 pages, 4 figures
- Published
- 2015
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