1. Theory of charge-6e condensed phase in Kagome lattice superconductors
- Author
-
Lin, Tong-Yu and Zhang, Guang-Ming
- Subjects
Condensed Matter - Strongly Correlated Electrons ,Condensed Matter - Statistical Mechanics ,Condensed Matter - Superconductivity - Abstract
Recently the experimental evidence of a charge-$6e$ condensed phase in the kagome superconductor $\mathrm{AV_3Sb_5}$ (J. Ge, et. al., Phys. Rev. X 14, 021025 (2024)) has sparked significant interest. At a phenomenological level, the order parameter of the $3Q$ pair-density-wave state can form either a triangular lattice or a kagome lattice, in which the vortices and antivortices locate at the center of the plaquettes. When the phase of a Cooper pair is denoted as a XY spin, the effective model for the phase fluctuation is characterized by the frustrated XY spin model on a triangular lattice with the nearest neighbour antiferromagnetic coupling or a kagome lattice with both nearest neighbour and next-nearest neighbor antiferromagnetic couplings. While both models produce $\frac{1}{3}$ fractional vortex excitations, which arise as the kinks on the domain walls in the low-energy excitations, the triangular lattice model has a much larger domain wall energy than the vortex interaction energy, so the frustrated kagome lattice model becomes unique. By developing a state-of-the-art numerical tensor network method, we rigorously solve this effective model at finite temperatures and confirm the presence of a vestigial phase with $\frac{1}{3}$ vortex-antivortex paired phase in the absence of phase coherence of Cooper pairs, which is dual to the charge-$6e$ condensed phase. Our theory provides a potential explanation for the vestigial charge-$6e$ magneto-resistant oscillations observed in the recent experimental work., Comment: 6 pages, 4 figures
- Published
- 2024