Abstract
A model of {sup 239}Pu with decoupled neutron is used for theoretical calculations of rotational population patterns in heavy ion inelastic scattering and one-neutron transfer reactions. The system treated in {sup 90}Zr on {sup 239}Pu at the near-barrier energy of 500 MeV and backscattering angles of 180deg and 140deg. The influence of the complex nuclear optical potential is seen to be very strong, and the Nilsson wave function of the odd neutron produces a distinctive pattern in the transfer reaction. (orig.).
Rasmussen, J O;
Stoyer, M A;
[1]
Canto, L F;
Donangelo, R;
[2]
Ring, P
[3]
- Lawrence Berkeley Lab., CA (USA)
- Universidade Federal do Rio de Janeiro, RJ (Brazil)
- Technische Univ. Muenchen, Garching (Germany, F.R.). Fakultaet fuer Physik
Citation Formats
Rasmussen, J O, Stoyer, M A, Canto, L F, Donangelo, R, and Ring, P.
Nuclear rotational population patterns in heavy-ion scattering and transfer reactions.
Germany: N. p.,
1991.
Web.
doi:10.1007/BF01282943.
Rasmussen, J O, Stoyer, M A, Canto, L F, Donangelo, R, & Ring, P.
Nuclear rotational population patterns in heavy-ion scattering and transfer reactions.
Germany.
https://doi.org/10.1007/BF01282943
Rasmussen, J O, Stoyer, M A, Canto, L F, Donangelo, R, and Ring, P.
1991.
"Nuclear rotational population patterns in heavy-ion scattering and transfer reactions."
Germany.
https://doi.org/10.1007/BF01282943.
@misc{etde_5906530,
title = {Nuclear rotational population patterns in heavy-ion scattering and transfer reactions}
author = {Rasmussen, J O, Stoyer, M A, Canto, L F, Donangelo, R, and Ring, P}
abstractNote = {A model of {sup 239}Pu with decoupled neutron is used for theoretical calculations of rotational population patterns in heavy ion inelastic scattering and one-neutron transfer reactions. The system treated in {sup 90}Zr on {sup 239}Pu at the near-barrier energy of 500 MeV and backscattering angles of 180deg and 140deg. The influence of the complex nuclear optical potential is seen to be very strong, and the Nilsson wave function of the odd neutron produces a distinctive pattern in the transfer reaction. (orig.).}
doi = {10.1007/BF01282943}
journal = []
volume = {339:1}
journal type = {AC}
place = {Germany}
year = {1991}
month = {May}
}
title = {Nuclear rotational population patterns in heavy-ion scattering and transfer reactions}
author = {Rasmussen, J O, Stoyer, M A, Canto, L F, Donangelo, R, and Ring, P}
abstractNote = {A model of {sup 239}Pu with decoupled neutron is used for theoretical calculations of rotational population patterns in heavy ion inelastic scattering and one-neutron transfer reactions. The system treated in {sup 90}Zr on {sup 239}Pu at the near-barrier energy of 500 MeV and backscattering angles of 180deg and 140deg. The influence of the complex nuclear optical potential is seen to be very strong, and the Nilsson wave function of the odd neutron produces a distinctive pattern in the transfer reaction. (orig.).}
doi = {10.1007/BF01282943}
journal = []
volume = {339:1}
journal type = {AC}
place = {Germany}
year = {1991}
month = {May}
}