We employ physics-informed neural networks (PINNs) to solve fundamental Dyson-Schwinger integral equations in the theory of quantum electrodynamics (QED) in Euclidean space. Our approach uses neural networks to approximate the fermion wave function renormalization, dynamical mass function, and photon propagator. By integrating the Dyson-Schwinger equations into the loss function, the networks learn and predict solutions over a range of momenta and ultraviolet cutoff values. This method can be extended to other quantum field theories (QFTs), potentially paving the way for forefront applications of machine learning within high-level theoretical physics.
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