The weak electronic correlations and absence of heavy Fermion state in KNi2Se2

Abstract

We have studied the low-lying electronic structure of a new ThCr2Si2-type superconductor KNi2Se2 with angle-resolved photoemission spectroscopy. Three bands intersect the Fermi level, forming complicated Fermi surface topology, which is sharply different from its isostructural superconductor KxFe2-ySe2. The Fermi surface shows weak variation along the kz direction, indicating its quasi-two-dimensional nature. Further comparison with the density functional theory calculations demonstrates that there exist relatively weak correlations and substantial hybridization of the Ni 3d and the Se 4p orbitals in the low-lying electronic structure. Our results indicate that the large density of states at the Fermi energy leads to the reported mass enhancement based on the specific heat measurements. Moreover, no anomaly is observed in the spectra when entering the fluctuating charge density wave state reported earlier.