English

Interplay between multi-spin and chiral spin interactions on triangular lattice

Strongly Correlated Electrons 2024-09-16 v1

Abstract

We investigate the spin-12\frac{1}{2} nearest-neighber Heisenberg model with the four-site ring-exchange J4J_4 and chiral interaction JχJ_\chi on the triangular lattice by using the variational Monte Carlo method. The J4J_4 term induces the quadratic band touching (QBT) quantum spin liquid (QSL) with only a d+idd+id spinon pairing (without hopping term), the nodal dd-wave QSL and U(1) QSL with a finite spinon Fermi surface progressively. The effect of the chiral interaction JχJ_\chi can enrich the phase diagram with two interesting chiral QSLs (topological orders) with the same quantized Chern number C=12\mathcal{C} = \frac{1}{2} and ground-state degeneracy GSD = 2, namely the U(1) chiral spin liquid (CSL) and Z2_2 d+idd+id-wave QSL. The nodal dd-wave QSL is fragile and will turn to the Z2_2 d+idd+id QSL with any finite JχJ_\chi within our numerical calculation. However, in the process from QBT to the Z2_2 d+idd+id QSL with the increase of JχJ_\chi, an exotic crossover region is found. In this region, the previous QBT state acquires a small hopping term so that it opens a small gap at the otherwise band touching points, and leads to an energy minimum which is energetically more favorable compared to another competitive local minimum from the Z2_2 d+idd+id QSL. We dub this state as the proximate QBT QSL and it gives way to the Z2_2 d+idd+id QSL eventually. Therefore, the cooperation of the J4J_4 and JχJ_\chi terms favors mostly the Z2_2 d+idd+id-wave QSL, so that this phase occupies the largest region in the phase diagram.

Keywords

Cite

@article{arxiv.2306.03478,
  title  = {Interplay between multi-spin and chiral spin interactions on triangular lattice},
  author = {Li-Wei He and Jian-Xin Li},
  journal= {arXiv preprint arXiv:2306.03478},
  year   = {2024}
}
R2 v1 2026-06-28T10:57:32.554Z