The reaction 10B(d, p0)11B

“…In cases when a "first peak" is not obvious or that the angular distributions of the forward angles are nearly flat, e.g. in the reaction of 44 Ca(p,d) 43 Ca at E p =40 MeV [174] as shown in Figure 2, we find that fitting the shoulder gives more consistent results. In general, the agreement of the shape of the angular distributions of the first peak or shoulder to reaction calculations gives some indication as to the quality of the spectroscopic information that can be extracted by comparing the transfer model to the data.…”

“…The curve is the predicted angular distributions from the code TWOFNR as described in the text, multiplied by 1.12 which is the spectroscopic factor. Figure 2: (Color online) The angular distributions of the deuteron obtained in the 44 Ca(p,d) 43 Ca reaction at incident proton energy of 40 MeV [174]. The curve is the predicted angular distributions from the code TWOFNR as described in the text, multiplied by the spectroscopic factor.…”

Neutron spectroscopic factors from transfer reactions

“…In cases when a "first peak" is not obvious or that the angular distributions of the forward angles are nearly flat, e.g. in the reaction of 44 Ca(p,d) 43 Ca at E p =40 MeV [174] as shown in Figure 2, we find that fitting the shoulder gives more consistent results. In general, the agreement of the shape of the angular distributions of the first peak or shoulder to reaction calculations gives some indication as to the quality of the spectroscopic information that can be extracted by comparing the transfer model to the data.…”

“…The curve is the predicted angular distributions from the code TWOFNR as described in the text, multiplied by 1.12 which is the spectroscopic factor. Figure 2: (Color online) The angular distributions of the deuteron obtained in the 44 Ca(p,d) 43 Ca reaction at incident proton energy of 40 MeV [174]. The curve is the predicted angular distributions from the code TWOFNR as described in the text, multiplied by the spectroscopic factor.…”

Neutron spectroscopic factors from transfer reactions

Study of the (d, p) Reaction in the1pShell

Proton Stripping Strengths for Levels ofC11