Correlation Effects in the Triangular Lattice Single-band System LixNbO2

Abstract

Superconductivity in hole-doped LixNbO2 has been reported with Tc ~ 5 K in the range 0.45 < x < 0.8. The electronic structure is based on a two-dimensional triangular Nb lattice. The strong trigonal crystal field results in a single Nb d(z2) band isolated within a wide gap, leading to a single-band triangular lattice system. The isolated, partially filled band has a width W=1.5 eV with dominant second neighbor hopping. To identify possible correlation effects, we apply DMFT(QMC) using on-site Coulomb repulsion U=0-3 eV, and check selected results using determinant QMC. For U as small as 1 eV, the single particle spectrum displays a robust lower Hubbard band, suggesting the importance of correlation effects in LixNbO2 even for U < W. At half-filling (x=0), a Mott transition occurs at Uc ~ 1.5 eV. Coupling between the O Ag phonon displacement and correlation effects is assessed.