Anomalously high value of Coulomb pseudopotential for the $\rm H_{5}S_{2}$ superconductor
| Autor: | Kostrzewa, Małgorzata, Szczęśniak, Radosław, Kalaga, Joanna K., Wrona, Izabela A. |
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| Rok vydání: | 2018 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | The ${\rm H_{5}S_{2}}$ and ${\rm H_{2}S}$ compounds are the two candidates for the low-temperature phase of compressed sulfur-hydrogen system. We have shown that the value of Coulomb pseudopotential ($\mu^{\star}$) for ${\rm H_{5}S_{2}}$ ($\left[T_{C}\right]_{\rm exp}=36$~K and $p=112$~GPa) is anomalously high. The numerical results give the limitation from below to $\mu^{\star}$ that is equal to $0.402$ ($\mu^{\star}=0.589$, if we consider the first order vertex corrections to the electron-phonon interaction). Presented data mean that the properties of superconducting phase in the ${\rm H_{5}S_{2}}$ compound can be understood within the classical framework of Eliashberg formalism only at the phenomenological level ($\mu^{\star}$ is the parameter of matching the theory to the experimental data). On the other hand, in the case of ${\rm H_{2}S}$ it is not necessary to take high value of Coulomb pseudopotential to reproduce the experimental critical temperature relatively well ($\mu^{\star}=0.15$). In our opinion, ${\rm H_{2}S}$ is mainly responsible for the observed superconductivity state in the sulfur-hydrogen system at low temperature. Comment: 11 pages, 7 figures |
| Databáze: | arXiv |
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