A second-order vibrational model applied to the scattering of electrons and α-particles from 12C

doi:10.1016/0375-9474(82)90482-1

Nuclear Physics A

Volume 388, Issue 3, 1 November 1982, Pages 644-666

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Abstract

Transition densities for monopole excitations and for virtual excitations are derived in the second-order vibrational model. Form factors for electron scattering calculated in the Born approximation and angular distributions for α-particle scattering, obtained in coupled channel calculations, are compared with experimental results for the elastic scattering and the inelastic scattering from the 2⁺ level at 4.44 MeV, the 0⁺ level at 7.65 MeV and the 3⁻ level at 9.64 MeV in ¹²C.

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Channel coupling and distortion effects in the excitation of the 0<inf>2</inf>+ state in 12C by alpha scattering
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Optical model calculations for intermediate energy antiproton scattering
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Optical-model analyses have been performed for the elastic scattering of antiprotons at 46.8 MeV from ¹²C and at 180 MeV from ¹²C, ⁴⁰Ca and ²⁰⁸Pb. Calculations have also been performed with folded potentials and an effective antiproton-nucleon interaction has been derived. In the case of ¹²C coupled channel effects due to the 2⁺ state at 4.43 MeV have been studied and deformation parameters in DWBA and in coupled channel calculations have been estimated for the vibrational as well as for the rotational model.
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Nuclear Physics A

Abstract

References (28)

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Phys. Lett.

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Nucl. Phys.

Phys. Rev.

Phys. Rev.

Cited by (6)

Channel coupling and distortion effects in the excitation of the 0<inf>2</inf><sup>+</sup> state in <sup>12</sup>C by alpha scattering

Optical model calculations for intermediate energy antiproton scattering

Effect of deformed target nucleus on elastic scattering reactions

Coupled channels analysis of 12C at low energy

Coupled-channel effects in low-energy elastic pion scattering

Coupled-channel effects in elastic <sup>12</sup>C-<sup>12</sup>C scattering at 1016 MeV