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• Capturing reduced-order quantum many-body dynamics out of equilibrium via neural ordinary differential equations cs.LG · 2025-12-15 · unverdicted · none · ref 83

  Neural ODEs reproduce 2RDM dynamics from data only when three-particle cumulant correlations are strong, mapping the validity regime of cumulant expansions.

• Explainable AI for Jet Tagging: A Comparative Study of GNNExplainer, GNNShap, and GradCAM for Jet Tagging in the Lund Jet Plane hep-ph · 2026-04-28 · unverdicted · none · ref 41

  Explainability techniques applied to LundNet show that assigned node importance correlates with classical jet substructure observables such as N-subjettiness ratios and energy correlation functions, with shifts across transverse-momentum regimes.

• E-PCN: Jet Tagging with Explainable Particle Chebyshev Networks Using Kinematic Features hep-ph · 2025-12-08 · conditional · none · ref 21

  E-PCN reaches 94.67% macro-accuracy on 10-class jet tagging by weighting graphs with angular separation, transverse momentum, momentum fraction, and invariant mass, with Grad-CAM showing the first two account for 76% of decisions and yielding gains over baseline PCN.

• Learning Minimal Representations of Many-Body Physics from Snapshots of a Quantum Simulator quant-ph · 2025-09-17 · unverdicted · none · ref 33

  A VAE learns a minimal latent representation from noisy quantum simulator snapshots that correlates with the sine-Gordon equilibrium parameter and detects anomalous post-quench dynamics including frozen-in solitons.