Spin-Chirality Separation and S3-Symmetry Breakings in the Magnetization Plateau of the Quantum Spin Tube

Abstract

We study the magnetization plateau state of the three-leg spin-1/2 tube in the strong rung coupling region, where S3-symmetry breakings and low-energy chirality degree of freedom play crucial roles. On the basis of the effective chirality model and density matrix renormalization group, we clarify that, as the leg coupling increases, the chirality liquid with gapless non-magnetic excitations, the spin imbalance phase and the vector-spin-chirality ordered phase emerge without closing the plateau spin gap. The relevance of these results to experiments is also discussed.