Data associated to the paper "Reduced basis surrogates for quantum spin systems based on tensor networks" (Q6708637)
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| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Data associated to the paper "Reduced basis surrogates for quantum spin systems based on tensor networks" |
Dataset published at Zenodo repository. |
Statements
Within the reduced basis methods approach, an effective low-dimensional subspace of a quantum many-body Hilbert space is constructed in order to investigate, e.g., the ground-state phase diagram. The basis of this subspace is built from solutions of snapshots, i.e., ground states corresponding to particular and well-chosen parameter values. Here, we show how a greedy strategy to assemble the reduced basis and thus to select the parameter points can be implemented based on matrix-product-state calculations. Once the reduced basis has been obtained, observables required for the computation of phase diagrams can be computed with a computational complexity independent of the underlying Hilbert space for any parameter value. We illustrate the efficiency and accuracy of this approach for different one-dimensional quantum spin-1 models, including anisotropic as well as biquadratic exchange interactions, leading to rich quantum phase diagrams.
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19 December 2023
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