We show that spontaneous time-reversal-symmetry (TRS) breaking can naturally arise from the interplay between pair density wave (PDW) ordering at multiple momenta and nesting of Fermi surfaces (FS). Concretely, we consider pair-density-wave superconductivity on a hexagonal lattice with nested FS at 3/4 electron filling, which is related to a recently discovered superconductor CsV3Sb5. Because of nesting of the FS, each momentum \bk on the FS has at least two counterparts −\bk±Qα (α=1,2,3) on the FS to form finite momentum (±Qα) Cooper pairs, resulting in a TRS and inversion broken PDW state with stable Bogoliubov Fermi pockets. Various spectra, including (local) density of states, electron spectral function and the effect of quasi-particle interference, have been investigated. The partial melting of the PDW will give rise to 4×4 and 34×34 CDW orders, in addition to the 2×2 CDW. Possible implications to real materials such as CsV3Sb5 and future experiments have been further discussed.
@article{arxiv.2204.05029,
title = {Interplay between Pair Density Wave and a Nested Fermi Surface},
author = {Jin-Tao Jin and Kun Jiang and Hong Yao and Yi Zhou},
journal= {arXiv preprint arXiv:2204.05029},
year = {2022}
}