Thermodynamics and superconductivity of S$_x$Se$_{1-x}$H$_3$
Maximilian Amsler

TL;DR
This study investigates the thermodynamic stability and superconducting properties of sulfur-selenium hydrides, finding that mixed compositions are generally less stable and have lower critical temperatures, thus limiting their potential for improved superconductivity.
Contribution
The paper provides a detailed thermodynamic analysis of S-Se-H compounds, challenging previous assumptions about stability and superconducting enhancement in mixed chalcogen hydrides.
Findings
S$_{0.5}$Se$_{0.5}$H$_3$ is unstable between 150-200 GPa.
Certain compositions like S$_{0.2}$Se$_{0.8}$H$_3$ are stable at 200 GPa.
All ternary phases show lower $T_c$ values, reducing their superconducting potential.
Abstract
The compression of SH and its subsequent decomposition to SH, presumably in a cubic Imm structure, has lead to the discovery of conventional superconductivity with the highest measured and confirmed to date, 203 K at 160 GPa. Recent theoretical studies suggest that a mixture of S with other elements of the chalcogen group could improve the superconducting temperature. Here, we present a detailed analysis of the thermodynamic properties of S and Se mixtures in the bcc lattice with Imm symmetry using a cluster expansion technique to explore the phase diagram of SSeH. In contrast to earlier reports, we find that SSeH is not stable in the pressure range between 150-200 GPa. However, phases at compositions SSeH, SSeH, and SSeH are…
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