Abstract
({sup 6}Li,d) reaction angular distributions on target nuclei 16 {<=} A {<=} 90 have been analyzed using both ZR- and FR-DWBA formalisms. The most prevalent method of analysis of alpha-transfer reactions such as({sup 6}Li,d) and its reverse (d, {sup 6}Li) (where the wave function at zero distance in the p-state of relative cluster motion in the A = 6 nuclei will not have node) is the ZR-DWBA calculations due to the relatively short time of computation. It is of particular interest to verify whether FR-DWBA calculations result in similar S{sub {alpha}}- values to those of ZR-DWBA or not. It is found that to derive similar S{sub {alpha}}-values as in FR-DWBA calculations, one requires relatively large real well depth in ZR-DWBA calculations. Qualitative discussions have been made in this direction. (author). 12 refs, 3 figs, 2 tabs.
Rahman, M A;
[1]
Mecking, M;
Strohbusch, U
[2]
- International Centre for Theoretical Physics, Trieste (Italy)
- Hamburg Univ. (Germany). 1. Inst. fuer Experimentalphysik
Citation Formats
Rahman, M A, Mecking, M, and Strohbusch, U.
({sup 6}Li,d) reaction on sd-, fp- and g-shell nuclei in ZR- and FR-DWBA formalisms.
IAEA: N. p.,
1991.
Web.
Rahman, M A, Mecking, M, & Strohbusch, U.
({sup 6}Li,d) reaction on sd-, fp- and g-shell nuclei in ZR- and FR-DWBA formalisms.
IAEA.
Rahman, M A, Mecking, M, and Strohbusch, U.
1991.
"({sup 6}Li,d) reaction on sd-, fp- and g-shell nuclei in ZR- and FR-DWBA formalisms."
IAEA.
@misc{etde_10111617,
title = {({sup 6}Li,d) reaction on sd-, fp- and g-shell nuclei in ZR- and FR-DWBA formalisms}
author = {Rahman, M A, Mecking, M, and Strohbusch, U}
abstractNote = {({sup 6}Li,d) reaction angular distributions on target nuclei 16 {<=} A {<=} 90 have been analyzed using both ZR- and FR-DWBA formalisms. The most prevalent method of analysis of alpha-transfer reactions such as({sup 6}Li,d) and its reverse (d, {sup 6}Li) (where the wave function at zero distance in the p-state of relative cluster motion in the A = 6 nuclei will not have node) is the ZR-DWBA calculations due to the relatively short time of computation. It is of particular interest to verify whether FR-DWBA calculations result in similar S{sub {alpha}}- values to those of ZR-DWBA or not. It is found that to derive similar S{sub {alpha}}-values as in FR-DWBA calculations, one requires relatively large real well depth in ZR-DWBA calculations. Qualitative discussions have been made in this direction. (author). 12 refs, 3 figs, 2 tabs.}
place = {IAEA}
year = {1991}
month = {Jun}
}
title = {({sup 6}Li,d) reaction on sd-, fp- and g-shell nuclei in ZR- and FR-DWBA formalisms}
author = {Rahman, M A, Mecking, M, and Strohbusch, U}
abstractNote = {({sup 6}Li,d) reaction angular distributions on target nuclei 16 {<=} A {<=} 90 have been analyzed using both ZR- and FR-DWBA formalisms. The most prevalent method of analysis of alpha-transfer reactions such as({sup 6}Li,d) and its reverse (d, {sup 6}Li) (where the wave function at zero distance in the p-state of relative cluster motion in the A = 6 nuclei will not have node) is the ZR-DWBA calculations due to the relatively short time of computation. It is of particular interest to verify whether FR-DWBA calculations result in similar S{sub {alpha}}- values to those of ZR-DWBA or not. It is found that to derive similar S{sub {alpha}}-values as in FR-DWBA calculations, one requires relatively large real well depth in ZR-DWBA calculations. Qualitative discussions have been made in this direction. (author). 12 refs, 3 figs, 2 tabs.}
place = {IAEA}
year = {1991}
month = {Jun}
}