Physics-Conditioned Diffusion Models for Lattice Gauge Theory

Qianteng Zhu,Gert Aarts,Wei Wang,Kai Zhou,Lingxiao Wang

CoRR（2025）

Cited 0|Views6

Abstract

We develop diffusion models for simulating lattice gauge theories, where stochastic quantization is explicitly incorporated as a physical condition for sampling. We demonstrate the applicability of this novel sampler to U(1) gauge theory in two spacetime dimensions and find that a model trained at a small inverse coupling constant can be extrapolated to larger inverse coupling regions without encountering the topological freezing problem. Additionally, the trained model can be employed to sample configurations on different lattice sizes without requiring further training. The exactness of the generated samples is ensured by incorporating Metropolis-adjusted Langevin dynamics into the generation process. Furthermore, we demonstrate that this approach enables more efficient sampling of topological quantities compared to traditional algorithms such as Hybrid Monte Carlo and Langevin simulations.

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【要点】：本文提出了一种新的用于模拟格点规范理论的扩散模型，通过将随机量化作为物理条件明确纳入采样过程中，实现了高效的拓扑量采样。

【方法】：研究采用了结合物理条件的扩散模型，并在模型训练中引入了Metropolis调整的Langevin动力学以确保样本的精确性。

【实验】：在U(1)规范场的二维时空中进行了实验，使用的数据集为不同耦合常数和格点尺寸的配置，结果表明该模型在小耦合常数下训练后可外推至更大耦合区域，且无需额外训练即可应用于不同格点尺寸，相比传统算法如混合蒙特卡洛和Langevin模拟，在拓扑量采样上更为高效。

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