Inelastic excitation and spin flip in heavy ion reactions

S. Chakravarti; P. J. Ellis; Benjamin F Bayman; Q. K.K. Liu

doi:10.1103/PhysRevC.27.143

Inelastic excitation and spin flip in heavy ion reactions

S. Chakravarti, P. J. Ellis, Benjamin F Bayman, Q. K.K. Liu

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

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Abstract

Coupled channel calculations were carried out for the inelastic scattering of C13 on Mg24 using form factors generated in a single folding model. We studied the population probability P1 for Mg24 in the 1.37 MeV 2+ level with |m|=1 and C13 in its ground state. Using spin-independent potentials the excitation of various states in C13 gave rise to a maximum P1(6°) of 0.2%. This increased to 0.3% when spin-dependence was allowed for in an approximate manner. At 10°the calculations fell significantly short of the experimental data. Large polarizations were found when excited states of C13 were populated; these effects are discussed. NUCLEAR REACTIONS C13+Mg24 inelastic scattering, E=35 MeV; coupled channel study of |m|=1 population probability for the Mg24 1.37 MeV 2+ level and polarization phenomena.

Original language	English (US)
Pages (from-to)	143-157
Number of pages	15
Journal	Physical Review C
Volume	27
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevC.27.143
State	Published - 1983

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title = "Inelastic excitation and spin flip in heavy ion reactions",

abstract = "Coupled channel calculations were carried out for the inelastic scattering of C13 on Mg24 using form factors generated in a single folding model. We studied the population probability P1 for Mg24 in the 1.37 MeV 2+ level with |m|=1 and C13 in its ground state. Using spin-independent potentials the excitation of various states in C13 gave rise to a maximum P1(6°) of 0.2%. This increased to 0.3% when spin-dependence was allowed for in an approximate manner. At 10°the calculations fell significantly short of the experimental data. Large polarizations were found when excited states of C13 were populated; these effects are discussed. NUCLEAR REACTIONS C13+Mg24 inelastic scattering, E=35 MeV; coupled channel study of |m|=1 population probability for the Mg24 1.37 MeV 2+ level and polarization phenomena.",

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T1 - Inelastic excitation and spin flip in heavy ion reactions

AU - Chakravarti, S.

AU - Ellis, P. J.

AU - Bayman, Benjamin F

AU - Liu, Q. K.K.

PY - 1983

Y1 - 1983

N2 - Coupled channel calculations were carried out for the inelastic scattering of C13 on Mg24 using form factors generated in a single folding model. We studied the population probability P1 for Mg24 in the 1.37 MeV 2+ level with |m|=1 and C13 in its ground state. Using spin-independent potentials the excitation of various states in C13 gave rise to a maximum P1(6°) of 0.2%. This increased to 0.3% when spin-dependence was allowed for in an approximate manner. At 10°the calculations fell significantly short of the experimental data. Large polarizations were found when excited states of C13 were populated; these effects are discussed. NUCLEAR REACTIONS C13+Mg24 inelastic scattering, E=35 MeV; coupled channel study of |m|=1 population probability for the Mg24 1.37 MeV 2+ level and polarization phenomena.

AB - Coupled channel calculations were carried out for the inelastic scattering of C13 on Mg24 using form factors generated in a single folding model. We studied the population probability P1 for Mg24 in the 1.37 MeV 2+ level with |m|=1 and C13 in its ground state. Using spin-independent potentials the excitation of various states in C13 gave rise to a maximum P1(6°) of 0.2%. This increased to 0.3% when spin-dependence was allowed for in an approximate manner. At 10°the calculations fell significantly short of the experimental data. Large polarizations were found when excited states of C13 were populated; these effects are discussed. NUCLEAR REACTIONS C13+Mg24 inelastic scattering, E=35 MeV; coupled channel study of |m|=1 population probability for the Mg24 1.37 MeV 2+ level and polarization phenomena.

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Inelastic excitation and spin flip in heavy ion reactions

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