Systematic analysis of the peripherality of the 10Be(d,p)11Be transfer reaction and extraction of the asymptotic normalization coefficient of 11Be bound states

Abstract

We reanalyze the experiment of Schmitt et al. on the 10Be(d,p)11Be transfer reaction [Phys. Rev. Lett. 108, 192701 (2012)] by exploring the beam-energy and angular ranges at which the reaction is strictly peripheral. We consider the adiabatic distorted wave approximation (ADWA) to model the reaction and use a Halo-EFT description of 11Be to systematically explore the sensitivity of our calculations to the short-range physics of the 10Be-n wave function. We find that by selecting the data at low beam energy and forward scattering angle the calculated cross sections scale nearly perfectly with the asymptotic normalization coefficient (ANC) of the 11Be bound states. Following these results, a comparison of our calculations with the experimental data gives a value of C1s1/2=0.7850.03 fm-1/2 for the 12+ ground-state ANC and C0p1/2=0.1350.005 fm-1/2 for the 12- excited-state, which are in perfect agreement with the ab initio calculations of Calci et al., who obtain Cab initio1/2+=0.786 fm-1/2 and Cab initio1/2-=0.129 fm-1/2 [Phys. Rev. Lett. 117, 242501 (2016)].