Superconducting ground state study of valence skip compound AgSnSe2

Abstract

The valence-skipped superconductors are natural candidates for unconventional superconductivity, as they can exhibit a negative effective, attractive interaction for electron-pairing. This work reports comprehensive XRD, magnetization, specific heat and muon spin rotation and relaxation measurements (μSR) on a valence-skipped compound: AgSnSe2. The temperature dependence of the electronic specific heat (Cel(T)) and of the upper critical field (Hc2(T)) provide evidence of two-gap superconductivity, which is also confirmed by our transverse-field μSR measurements. Our zero-field μSR measurements suggest preserved time-reversal symmetry in the superconducting ground state of AgSnSe2.