https://doi.org/10.1051/epjconf/202022701019
Dispersion (asymptotic) theory of charged-particle transfer reactions and nuclear astrophysics
1 institute of Nuclear Physics, 100214 Tashkent, Uzbekistan
2 Department of Physics and Mathematics of Gulistan State University, 120100 Gulistan, Uzbekistan
* e-mail: rakhim@inp.uz
** e-mail: tursunmahatovqi@mail.ru
*** e-mail: igamov@inp.uz
Published online: 14 January 2020
A new asymptotic theory is proposed for the peripheral transfer A(x, y)B reaction at low energies within the three-body (A, a and y) model by com bining the dispersion theory and DWBA, where x= y + a, B= A + a, and a is a transferred particle. The results of the analysis of the differential cross sections of the proton transfer 9Be(1°B, 9Be)1°B reaction at the 1°B projectile energy of 100 MeV populating the ground and excited states of the residual nucleus are presented. New estimates and their uncertainties are obtained for values of the asymptotic normalization coefficients for 9Be + p ^ 1°B and for the astrophys- ical S factors at stellar energy of the radiative capture 9Be(ρ, γ)1°B reaction.
© The Authors, published by EDP Sciences, 2020
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