Title:
Tensor network study of the spin - 1/2 Heisenberg antiferromagnet on the shuriken lattice
Author(s):
Schmoll, Philipp; Kshetrimayum, Augustine; Naumann, Jan L.; Eisert, Jens; Iqbal, Yasir
Year of publication:
2023
Available Date:
2024-03-27T08:49:52Z
Abstract:
We investigate the ground state of the spin S=12 Heisenberg antiferromagnet on the shuriken lattice, also in the presence of an external magnetic field. To this end, we employ two-dimensional tensor network techniques based on infinite projected entangled pair and simplex states considering states with different sizes of the unit cells. We show that a valence bond crystal with resonances over length six loops emerges as the ground state (at any given finite bond dimension) yielding the lowest reported estimate of the ground state energy E0/J=−0.4410±0.0001 for this model, estimated in the thermodynamic limit. We also study the model in the presence of an external magnetic field and find the emergence of 0, 13, and 23 magnetization plateaus. The 13 and 23 plateau states respect translation and point group symmetries and feature loop-four plaquette resonances.
Part of Identifier:
ISSN (print): 2469-9950
e-ISSN (online): 2469-9969
Keywords:
Exotic phases of matter
Frustrated magnetism
Two-dimensional systems
Paramagnets
Quantum many-body systems
Quantum spin models
Strongly correlated systems
Heisenberg model
Projected entangled pair states
Spin lattice models
Tensor network methods
DDC-Classification:
539 Moderne Physik
Publication Type:
Wissenschaftlicher Artikel
URL of the Original Publication:
DOI of the Original Publication:
Journal Volume:
107 (2023)
Journaltitle:
Physical Review B
Publisher:
American Physical Society
Publisher Place:
Berlin, College Park, MD
Department/institution:
Physik
Institut für Theoretische Physik
