Marrying ab initio calculations and Halo EFT: the case of 7 Be + p → 8 B + γ

Abstract

We report a leading-order (LO) calculation of 7Be(p,γ)8B in a low-energy effective field theory. 8B is treated as a shallow proton+7Be core and proton+7Be* (core excitation) p-wave bound state. The couplings are fixed using measured binding energies and proton-7Be s-wave scattering lengths, together with 8B asymptotic normalization coefficients from ab initio calculations. We obtain a zero-energy S-factor of 18.2 1.2~( ANC~only) eV b. Given that this is a LO result it is consistent with the recommended value S(0)=20.81.6 eV b. Our computed S(E) compares favorably with experimental data on 7Be(p,γ)8B for E <0.4 MeV. We emphasize the important role of proton-7Be scattering parameters in determining the energy dependence of S(E), and demonstrate that their present uncertainties significantly limit attempts to extrapolate these data to stellar energies.