Neural Wavefunctions in Quantum Field Theory I: Asymptotic Freedom

Abstract

We present a variational approach to quantum field theory based on wavefunctions parameterized by neural networks. While variational methods have a celebrated history across many fields, their application to quantum field theory has been limited by well-known challenges. We show that neural-network wavefunctions, combined with modern machine-learning techniques, enable competitive variational calculations in nontrivial field theories. As a demonstration, we reproduce the essential features of the two-dimensional nonlinear σ-model: asymptotic freedom, dynamical mass generation and the model's step-scaling function.