Emergence of superconductivity near 11 K by suppressing the 3-fold helical-chain structure in noncentrosymmetric HgS
Abstract
The trigonal α-HgS has a 3-fold helical chain structure, and is in form of a noncentrosymmetric P3121 phase, known as the cinnabar phase. However, under pressure, the helical chains gradually approach and connect with each other, finally reconstructing into a centrosymmetric NaCl structure at 21 GPa. Superconductivity emerges just after this helical-nonhelical structural transition. The maximum critical temperature (Tc) reaches 11 K at 25.4 GPa, Tc decreases with further compression, and is still 3.5 K at 44.8 GPa. Furthermore, the Tc-critical magnetic field (Bc2) relation exhibits multi-band features, with a Bc2 of 5.65 T at 0 K by two-band fitting. Raman spectra analysis demonstrates that phonon softening plays a key role in structural transition and the emergence of superconductivity. It is noted that HgS is the first reported IIB group metal sulfide superconductor and the only NaCl-type metal sulfide superconductor with a Tc above 10 K. This work will inspire the exploration of superconductivity in other chiral systems and will extend our understanding of the versatile behavior in such kinds of materials.
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