5 years ago

Phase diagram of the quantum Ising model with long-range interactions on an infinite-cylinder triangular lattice.

S. N. Saadatmand, I. P. McCulloch, S. D. Bartlett

Obtaining quantitative ground-state behavior for geometrically-frustrated quantum magnets with long-range interactions is challenging for numerical methods. Here, we demonstrate that the ground states of these systems on two-dimensional lattices can be efficiently obtained using state-of-the-art translation-invariant variants of matrix product states and density-matrix renormalization-group algorithms. We use these methods to calculate the fully-quantitative ground-state phase diagram of the long-range interacting triangular Ising model with a transverse field on 6-leg infinite-length cylinders, and scrutinize the properties of the detected phases. We compare these results with those of the corresponding nearest neighbor model. Our results suggest that, for such long-range Hamiltonians, the long-range quantum fluctuations always lead to long-range correlations, where correlators exhibit power-law decays instead of the conventional exponential drops observed for short-range correlated gapped phases. Our results are relevant for comparisons with recent trapped-ion quantum simulator experiments that demonstrate highly-controllable long-range spin couplings for several hundred ions.

Publisher URL: http://arxiv.org/abs/1802.00422

DOI: arXiv:1802.00422v1

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