Variational study of the magnetization plateaus in the spin-1/2 kagome Heisenberg antiferromagnet: an approach from vision transformer neural quantum states

Abstract

We analyze the magnetization curve of the spin-1/2 kagome Heisenberg model in a magnetic field. Using state-of-the-art variational wavefunctions based on neural networks, we confirm the presence of robust magnetization plateaus at m=1/3, 5/9 and 7/9 of the saturation value, stabilized by a spontaneous symmetry breaking of lattice translations with a 3× 3 unit cell. Regarding the more challenging m=1/9 plateau, we find two competing valence bond crystals depending on the system size, both breaking translation as well as point group symmetries and with a larger 3× 3 unit cell. Such quantum states with local modulations of the magnetization average values could be observed experimentally in the near future.