Single particle transfer reactions and backward angle elastic scattering for the ${}^{15}N$ , ${}^{16}O$ + ${}^{28}{Si}$ systems

1 December 1979

journal article
research article
Published by American Physical Society (APS) in Physical Review C

Vol. 20 (6) , 2124-2129
https://doi.org/10.1103/physrevc.20.2124

Abstract

Strongly absorbing optical potentials in a distorted-wave context are unable to describe the single neutron-stripping and single proton-pickup reactions induced by 44 MeV

{}^{15}N

on a

{}^{28}{Si}

target. Modifications of the imaginary potential consistent with the surface transparency requirements for backward angle

{}^{16}O

{}^{28}{Si}

elastic scattering greatly improve the transfer predictions. In addition, the altered potentials yield a reasonably qualitative picture of the backward elastic excitation function over a broad range of energy.

Keywords

This publication has 5 references indexed in Scilit:

Elastic and inelastic scattering ofO16andO18onSi28at 56 MeV incident energy
Physical Review C, 1979
One and two-step processes in stripping and pick-up reactions induced by ${}^{15}N$ on ${}^{28}{Si}$
Physical Review C, 1978
Parity Dependence of the Heavy-Ion Optical Potential
Physical Review Letters, 1978
Undamped Surface Waves in the Scattering of ${}^{16}O$ + ${}^{28}{Si}$ at $E_{c . m .} = 35$ MeV
Physical Review Letters, 1977
Heavy-ion optical potentials from few-nucleon transfer reactions
Physical Review C, 1975

Single particle transfer reactions and backward angle elastic scattering for theN15,O16+Si28systems

Abstract

Keywords

Single particle transfer reactions and backward angle elastic scattering for the ${}^{15}N$ , ${}^{16}O$ + ${}^{28}{Si}$ systems