Showing 1–20 of 26 results
/ Date/ Name
Jul 22, 2024First experimental test of the ratio method for nuclear-reaction analysisOct 13, 2022Optical potentials for the rare-isotope beam eraMay 16, 2022Horizons: Nuclear Astrophysics in the 2020s and BeyondDec 1, 2021Exploring experimental conditions to reduce uncertainties in the optical potentialDec 16, 2020Recent advances in the quantification of uncertainties in reaction theoryOct 15, 2018Uncertainty quantification due to optical potentials in models for (d,p) reactionsOct 6, 2017$^6$Li in a Three-Body Model with Realistic Forces: Separable vs. Non-separable ApproachMay 22, 2017Toward a complete theory for predicting inclusive deuteron breakup away from stabilityMay 8, 2016Extension of the ratio method to low energyNov 18, 2015Recent developments in the eikonal description of the breakup of exotic nucleiOct 5, 2014Separable Optical Potentials for (d,p) ReactionsSep 14, 2014Separable Representation of Proton-Nucleus Optical PotentialsMar 10, 2014Revisiting surface-integral formulations for one-nucleon transfers to bound and resonance statesJan 8, 2014Testing the Perey EffectSep 10, 2013The ratio method: a new tool to study one-neutron halo nucleiDec 18, 2012Mechanisms of direct reactions with halo nucleiMar 20, 2012Comparing non-perturbative models of the breakup of neutron-halo nucleiOct 4, 2011Are present reaction theories for studying rare isotopes good enough?Aug 16, 2011Asymptotic normalization of mirror states and the effect of couplingsApr 12, 2011One-neutron halo structure by the ratio method