Title: Interplay between superconductivity and magnetism in Fe<sub>1−<i>x</i></sub>Pd<sub><i>x</i></sub>Te
Abstract: The attractive/repulsive relationship between superconductivity and magnetic ordering has fascinated the condensed matter physics community for a century. In the early days, magnetic impurities doped into a superconductor were found to quickly suppress superconductivity. Later, a variety of systems, such as cuprates, heavy fermions, and Fe pnictides, showed superconductivity in a narrow region near the border to antiferromagnetism (AFM) as a function of pressure or doping. However, the coexistence of superconductivity and ferromagnetic (FM) or AFM ordering is found in a few compounds [RRh 4 B 4 (R = Nd, Sm, Tm, Er), R′Mo 6 X 8 (R′ = Tb, Dy, Er, Ho, and X = S, Se), UMGe (M = Ge, Rh, Co), CeCoIn 5 , EuFe 2 (As 1− x P x ) 2 , etc.], providing evidence for their compatibility. Here, we present a third situation, where superconductivity coexists with FM and near the border of AFM in Fe 1− x Pd x Te. The doping of Pd for Fe gradually suppresses the first-order AFM ordering at temperature T N/S , and turns into short-range AFM correlation with a characteristic peak in magnetic susceptibility at T ′ N . Superconductivity sets in when T ′ N reaches zero. However, there is a gigantic ferromagnetic dome imposed in the superconducting-AFM (short-range) cross-over regime. Such a system is ideal for studying the interplay between superconductivity and two types of magnetic (FM and AFM) interactions.