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Quantum Algorithms

Fine-Grained Tensor Network Methods

arXiv
Authors: Philipp Schmoll, Saeed S. Jahromi, Max Hörmann, Matthias Mühlhauser, K. P. Schmidt, Román Orús

Year

2019

Paper ID

14863

Status

Preprint

Abstract Read

~2 min

Abstract Words

183

Citations

N/A

Abstract

We develop a strategy for tensor network algorithms that allows to deal very efficiently with lattices of high connectivity. The basic idea is to fine-grain the physical degrees of freedom, i.e., decompose them into more fundamental units which, after a suitable coarse-graining, provide the original ones. Thanks to this procedure, the original lattice with high connectivity is transformed by an isometry into a simpler structure, which is easier to simulate via usual tensor network methods. In particular this enables the use of standard schemes to contract infinite 2d tensor networks - such as Corner Transfer Matrix Renormalization schemes - which are more involved on complex lattice structures. We prove the validity of our approach by numerically computing the ground-state properties of the ferromagnetic spin-1 transverse-field Ising model on the 2d triangular and 3d stacked triangular lattice, as well as of the hard-core and soft-core Bose-Hubbard models on the triangular lattice. Our results are benchmarked against those obtained with other techniques, such as perturbative continuous unitary transformations and graph projected entangled pair states, showing excellent agreement and also improved performance in several regimes.

Why This Paper Matters

  • It adds a 2019 reference point for readers tracking recent quantum research.
  • We develop a strategy for tensor network algorithms that allows to deal very efficiently with lattices of high connectivity.

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