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Nuclear rotational population patterns in heavy-ion scattering and transfer reactions

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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.).
Authors:
Rasmussen, J O; Stoyer, M A; [1]  Canto, L F; Donangelo, R; [2]  Ring, P [3] 
  1. Lawrence Berkeley Lab., CA (USA)
  2. Universidade Federal do Rio de Janeiro, RJ (Brazil)
  3. Technische Univ. Muenchen, Garching (Germany, F.R.). Fakultaet fuer Physik
Publication Date:
May 01, 1991
DOI:
https://doi.org/10.1007/BF01282943
Product Type:
Journal Article
Reference Number:
DEN-91-003954; EDB-91-079704
Resource Relation:
Journal Name: Zeitschrift fuer Physik, A: Hadrons and Nuclei; (Germany, F.R.); Journal Volume: 339:1
Subject:
73 NUCLEAR PHYSICS AND RADIATION PHYSICS; PLUTONIUM 239 TARGET; ZIRCONIUM 90 REACTIONS; INELASTIC SCATTERING; ONE-NUCLEON TRANSFER REACTIONS; BACKSCATTERING; BRANCHING RATIO; COULOMB EXCITATION; DECOUPLING; HIGH SPIN STATES; MEV RANGE 100-1000; NEUTRON TRANSFER; NILSSON-MOTTELSON MODEL; NUCLEAR POTENTIAL; NUCLEAR STRUCTURE; OPTICAL MODELS; PLUTONIUM 238; PLUTONIUM 239; PROBABILITY; ROTATIONAL STATES; THEORETICAL DATA; WAVE FUNCTIONS; ZIRCONIUM 90; ZIRCONIUM 91; ACTINIDE ISOTOPES; ACTINIDE NUCLEI; ALPHA DECAY RADIOISOTOPES; CHARGED-PARTICLE REACTIONS; DATA; DIRECT REACTIONS; ENERGY LEVELS; ENERGY RANGE; ENERGY-LEVEL TRANSITIONS; EVEN-EVEN NUCLEI; EVEN-ODD NUCLEI; EXCITATION; EXCITED STATES; FUNCTIONS; HEAVY ION DECAY RADIOISOTOPES; HEAVY ION REACTIONS; HEAVY NUCLEI; INFORMATION; INTERMEDIATE MASS NUCLEI; ISOMERIC TRANSITION ISOTOPES; ISOTOPES; MATHEMATICAL MODELS; MEV RANGE; NUCLEAR MODELS; NUCLEAR REACTIONS; NUCLEI; NUMERICAL DATA; PLUTONIUM ISOTOPES; POTENTIALS; RADIOISOTOPES; SCATTERING; SILICON 32 DECAY RADIOISOTOPES; STABLE ISOTOPES; TARGETS; TRANSFER REACTIONS; YEARS LIVING RADIOISOTOPES; ZIRCONIUM ISOTOPES; 653003* - Nuclear Theory- Nuclear Reactions & Scattering
OSTI ID:
5906530
Country of Origin:
Germany
Language:
English
Other Identifying Numbers:
Journal ID: CODEN: ZPAHE; Other: CNN: DE-AC03-76SF00098; INT-83-82853
Submitting Site:
DEN
Size:
Pages: 141-145
Announcement Date:
Jun 15, 1991

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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}
 }