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Machine Learning Holographic Mapping by Neural Network Renormalization Group

Disordered Systems and Neural Networks 2022-02-01 v3 Statistical Mechanics High Energy Physics - Theory

Abstract

The exact holographic mapping (EHM) provides an explicit duality map between a conformal field theory (CFT) configuration and a massive field propagating on an emergent classical geometry. However, designing the optimal holographic mapping is challenging. Here we introduce the neural network renormalization group as a universal approach to design generic EHM for interacting field theories. Given a field theory action, we train a flow-based hierarchical deep generative neural network to reproduce the boundary field ensemble from uncorrelated bulk field fluctuations. In this way, the neural network develops the optimal renormalization group transformations. Using the machine-designed EHM to map the CFT back to a bulk effective action, we determine the bulk geodesic distance from the residual mutual information. We apply this approach to the complex ϕ4\phi^4 theory in two-dimensional Euclidian spacetime in its critical phase, and show that the emergent bulk geometry matches the three-dimensional hyperbolic geometry.

Keywords

Cite

@article{arxiv.1903.00804,
  title  = {Machine Learning Holographic Mapping by Neural Network Renormalization Group},
  author = {Hong-Ye Hu and Shuo-Hui Li and Lei Wang and Yi-Zhuang You},
  journal= {arXiv preprint arXiv:1903.00804},
  year   = {2022}
}

Comments

9 pages, 7 figures + appendix

R2 v1 2026-06-23T07:56:29.978Z