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By leveraging neural networks, we address the inverse problem of constructing a quantitative 2+1-flavor holographic QCD model based on state-of-the-art lattice QCD data. Our model demonstrates quantitative agreement with the latest lattice QCD results. We construct the full phase diagram at finite magnetic field B, baryon chemical potential B and temperature T. We uncover rich phase structure with a first-order phase transition surface and a critical endpoint line within the 3-dimensional phase diagram. The critical endpoint at vanishing chemical potential aligns with current speculations in the lattice QCD literature. In particular, for large magnetic field, we find two critical endpoints in the T-B plane. The critical exponents of the critical endpoints adhere to scaling relations and depend on the background magnetic field. Moreover, they are exhibit deviations from mean-field theory, highlighting the distinctive features of our holographic approach.
Cai et al. (Tue,) studied this question.
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