Kiyomi Okamoto, Atsuhiro Kitazawa
Published 1998-09-09Version 1
We study the plateau of the magnetization curve at $M = M_{\rm s}/3$ ($M_{\rm s}$ is the saturation magnetization) of the $S=1/2$ trimerized $XXZ$ spin chain. By examining the level crossing of low-lying excitations obtained from the numerical diagonalization, we precisely determine the phase boundary between the plateau state and the no-plateau state on the $\Delta-t$ plane, where $\Delta$ denotes the $XXZ$ anisotropy and $t$ the magnitude of the trimerization. This quantum phase transition is of the Berezinskii-Kosterlitz-Thouless type.
Comments: 11 pages, 8 figures
Journal: J. Phys. A: Math. Gen. Vol.32, No.25, 4601-4609 (1999)
Quantum Phase Transition of S=1/2 Trimerized XXZ Spin Chain in Magnetic Field
Breakdown of a Magnetization Plateau in Ferrimagnetic Mixed Spin-(1/2,S) Heisenberg Chains Due to a Quantum Phase Transition Towards the Luttinger Spin Liquid
Signatures of quantum phase transitions after quenches in quantum chaotic one-dimensional systems
