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arxiv: 2206.07370 · v1 · pith:4DTEAHCTnew · submitted 2022-06-15 · 🪐 quant-ph · cs.AI· cs.LG

Lattice Convolutional Networks for Learning Ground States of Quantum Many-Body Systems

classification 🪐 quant-ph cs.AIcs.LG
keywords latticeslatticeconvolutionalexistingmethodsnetworksconvolutionsencoding
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Deep learning methods have been shown to be effective in representing ground-state wave functions of quantum many-body systems. Existing methods use convolutional neural networks (CNNs) for square lattices due to their image-like structures. For non-square lattices, existing method uses graph neural network (GNN) in which structure information is not precisely captured, thereby requiring additional hand-crafted sublattice encoding. In this work, we propose lattice convolutions in which a set of proposed operations are used to convert non-square lattices into grid-like augmented lattices on which regular convolution can be applied. Based on the proposed lattice convolutions, we design lattice convolutional networks (LCN) that use self-gating and attention mechanisms. Experimental results show that our method achieves performance on par or better than existing methods on spin 1/2 $J_1$-$J_2$ Heisenberg model over the square, honeycomb, triangular, and kagome lattices while without using hand-crafted encoding.

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