The electron-phonon coupling constant, the Fermi temperature and unconventional superconductivity in the carbonaceous sulfur hydride 190 K superconductor

Abstract

Recently, Snider et al (2020 Nature 586 373) reported on the observation of superconductivity in highly-compressed carbonaceous sulfur hydride, Hx(S,C)y. The highest critical temperature in Hx(S,C)y by 5 K exceeds previous record of Tc = 280 K reported by Somayazulu et al (2019 Phys. Rev. Lett. 122 027001) for highly-compressed LaH10. In this paper we analyze experimental temperature dependent magnetoresistance data, R(T,B), reported by Snider et al. The analysis shows that Hx(S,C)y compound exhibited Tc = 190 K (P = 210 GPa) has the electron-phonon coupling constant λe-ph = 2.0 and the ratio of critical temperature, Tc, to the Fermi temperature, Tf, in the range of 0.011 < Tc/Tf < 0.018. These deduced values are very close to ones reported for HxS at P = 155-165 GPa by Drozdov et al (2015 Nature 525 73). This means that in all considered scenarios the carbonaceous sulfur hydride 190 K superconductor falls into unconventional superconductors band in the Uemura plot, where all other highly-compressed super-hydride/deuterides are located. It should be noted that that our analysis shows that all raw R(T,B) datasets for Hx(S,C)y samples for which Snider et al (2020 Nature 586 373) reported Tc > 200 K cannot be characterized as reliable data sources. Thus, independent experimental confirmation/disprove high-Tc values in the carbonaceous sulfur hydride is required.