Interplay between multi-spin and chiral spin interactions on triangular lattice
Abstract
We investigate the spin- nearest-neighber Heisenberg model with the four-site ring-exchange and chiral interaction on the triangular lattice by using the variational Monte Carlo method. The term induces the quadratic band touching (QBT) quantum spin liquid (QSL) with only a spinon pairing (without hopping term), the nodal -wave QSL and U(1) QSL with a finite spinon Fermi surface progressively. The effect of the chiral interaction can enrich the phase diagram with two interesting chiral QSLs (topological orders) with the same quantized Chern number and ground-state degeneracy GSD = 2, namely the U(1) chiral spin liquid (CSL) and Z -wave QSL. The nodal -wave QSL is fragile and will turn to the Z QSL with any finite within our numerical calculation. However, in the process from QBT to the Z QSL with the increase of , 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 Z QSL. We dub this state as the proximate QBT QSL and it gives way to the Z QSL eventually. Therefore, the cooperation of the and terms favors mostly the Z -wave QSL, so that this phase occupies the largest region in the phase diagram.
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}
}