Possible "Magn\'eli" phases and self-alloying in the superconducting sulfur hydride

Abstract

We theoretically give an infinite number of metastable crystal structures for the superconducting sulfur hydride HxS under pressure. It has been thought that theoretically predicted structures of H2S and H3S exhibit low and high T c in the experiment, respectively. The newly found structures are long-period modulated crystals where slab-like H2S and H3S regions intergrow in a microscopic scale. The extremely small formation enthalpy for the H2S--H3S boundary indicated with the first-principles calculations suggests possible alloying of these phases through formation of local H3S regions. The modulated structures and gradual alloying transformations between them not only explain the peculiar pressure dependence of T c in sulfur hydride observed experimentally, but also could prevail in the experimental samples under various compression schemes.