The falsification of Chiral Nuclear Forces
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Predictive power in theoretical nuclear physics has been a major concern in the study of nuclear structure and reactions. The Effective Field Theory (EFT) based on chiral expansions provides a model independent hierarchy for many body forces at long distances but their predictive power may be undermined by the regularization scheme de- pendence induced by the counterterms and encoding the short distances dynamics which seem to dominate the uncertainties. We analyze several examples including zero energy NN scattering or perturbative counterterm-free peripheral scattering where one would ex- pect these methods to work best and unveil relevant systematic discrepancies when a fair comparison to the Granada-2013 NN-database and partial wave analysis is undertaken.
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Coarse graining hadronic scattering
Coarse graining of hadronic scattering fixes long-range chiral dynamics above cutoff r_c and counts short-range parameters as N_Par = N_S × N_I × (p r_c)^2 / 2 for χ² fits with proper degrees of freedom.
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