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Quantum entropy and QCD factorization for low-Q² νDIS

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arxiv 2412.14257 v1 pith:46IJST77 submitted 2024-12-18 hep-ph hep-thnucl-thquant-ph

Quantum entropy and QCD factorization for low-Q² νDIS

classification hep-ph hep-thnucl-thquant-ph
keywords factorizationquantumentropyneutrinolimitstheoremsaccelerator-basedaccuracy
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Deeply inelastic scattering (DIS) is an essential process for exploring the structure of visible matter and testing the standard model. At the same time, the theoretical interpretation of DIS measurements depends on QCD factorization theorems whose validity deteriorates at the lower values of $Q^2$ and $W^2$ typical of neutrino DIS in accelerator-based oscillation searches. For this reason, progress in understanding the origin and limits of QCD factorization is invaluable to the accuracy and precision of predictions for these upcoming neutrino experiments. In these short proceedings, we introduce a novel approach based on the quantum entropy associated with continuous distributions in QCD, using it to characterize the limits of factorization theorems relevant for the description of neutrino DIS. This work suggests an additional avenue for dissecting factorization-breaking dynamics through the quantum entropy, which could also play a role in quantum simulations of related systems.

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