Quantum fluctuations preserve coexistence of chiral superconductivity and 120° spin order with N3 topology on the triangular lattice; fluctuations shift topological transition densities and intersite repulsion reduces their number.
The excitation spectrum in the noncollinear magnetic phase is gapless on the Fermi contour (the line in the 2D Brillouin zone) at all levels of doping
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Stability of the coexistence phase of chiral superconductivity and noncollinear spin ordering with a nontrivial topology and strong electron correlations
Quantum fluctuations preserve coexistence of chiral superconductivity and 120° spin order with N3 topology on the triangular lattice; fluctuations shift topological transition densities and intersite repulsion reduces their number.