12916x

: Calculating the axial form factors of the nucleon, which are vital for predicting neutrino-nucleon cross-sections.

: By precisely modeling standard model interactions, the report argues that researchers can more easily identify "new physics" or non-standard neutrino interactions. 4. Impact on Future Facilities 12916x

Lattice QCD and neutrino-nucleus scattering* - Springer Nature : Calculating the axial form factors of the

The report identifies as a critical tool for current and future neutrino experiments like DUNE (Deep Underground Neutrino Experiment) and Hyper-Kamiokande . Because these experiments use heavy atomic nuclei (like Argon or Water) as targets, understanding the complex interactions between neutrinos and nucleons at a subatomic level is essential for extracting precise data on neutrino masses and flavor mixing. 2. Key Objectives & Scope Impact on Future Facilities Lattice QCD and neutrino-nucleus

: Accurate Lattice QCD inputs help reduce systematic uncertainties in oscillation parameters, such as the CP-violating phase, which could explain the matter-antimatter asymmetry in the universe.