Universal Fermi velocity in highly compressed hydride superconductors

Abstract

Fermi velocity, vF, is one of the primary characteristics of any conductor, including superconductors. For conductors at ambient pressure several experimental techniques have been developed to measure vF and, for instance, Zhou et al (Nature 423 398 (2003)) reported that high-Tc cuprates exhibit universal nodal Fermi velocity of vF = 2.7*105 m/s. However, there were no experimental techniques applied to measure vF in highly-compressed near-room-temperature superconductors (NRTS), due to experimental challenges. Here to answer a question about the existence of the universal Fermi velocity in NRTS materials, we analyzed full inventory of the ground-state upper critical field data, Bc2(0), for these materials and found that this class of superconductors exhibits universal Fermi velocity of vF = (1/1.3)*(2(0)/(kBTc))*105 m/s (where (0) is ground state amplitude of the energy gap). Due to the ratio of 2(0)/(kBTc) is varying within a narrow arrange of 3.2 < 2(0)/(kBTc) < 5, then vF in NRTS materials is within the same ballpark with its high-Tc cuprates counterpart.