p-Orbital Density Wave with d Symmetry in High-Tc Cuprate Superconductors

Emergence of the nematic density wave is a fundamental unsolved problem in cuprate superconductors. To understand the origin of the nematicity, we employ the recently-developed functional renormalization-group method with high numerical accuracy, and discover the critical development of the $p$-orbital-density-wave ($p$-ODW) instability in the strong-spin-fluctuation region [1]. The obtained $p$-ODW state possesses the key characteristics of the charge ordering pattern in Bi- and Y-based superconductors, such as the wavevector parallel to the nearest Cu-Cu direction, and the $d$-symmetry form factor with the antiphase correlation between $p_x$ and $p_y$ orbitals in the same unit cell. From the beautiful scaling relation between the spin susceptibility and the $p$-ODW susceptibility, we conclude that the $p$-ODW is driven by the strong interference between spin and charge fluctuations. It is clarified that the strong charge-spin interference, which is the origin of the nematicity, is the hidden but significant characteristics of the electronic states in cuprate superconductors. \\ \ [1] M. Tsuchiizu, Y. Yamakawa, and H. Kontani, arXiv:1508.07218.