The 16O(6Li, dγ)20Ne reaction

doi:10.1016/0375-9474(79)90513-X

Nuclear Physics A

Volume 313, Issue 3, 22 January 1979, Pages 467-476

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Abstract

The discrepancy between observed reaction streghts and those predicted from SU(3) considerations in the ¹⁶O(⁶Li, d) reaction has been studied. The effects of both ¹⁶O ground state correlations and of inelastic couplings on the reaction strengths are included. Particle-gamma angular correlations are presented as a test of the reaction predictions. It is found that inclusion of both the ground state correlations and the inelastic coupling does help to resolve the theoretical- experimental discrepancy, and results in generally improved representations of both cross section and angular correlation data.

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Cited by (5)

Energy levels of A = 21-44 nuclei (VII)
1990, Nuclear Physics, Section A
The experimentally determined properties of A = 21–44 nuclides are complied and evaluated with special emphasis on nuclear spectroscopy.
Separate tables for each of the nuclides reviewed present the available information about the following properties (in this order):
- •
  - excitation energies E_x,
- •
  - γ-ray branching ratios b(γ),
- •
  - γ-ray mixing ratios σ,
- •
  - lifetimes γ_m or widths Λ,
- •
  - neutron, proton, or α-particle resonances,
- •
  - partial widths,
- •
  - single-nucleon transfer reactions,
- •
  - beta-decay,
- •
  - arguments for spin and parity (J^π) and isospin (T) assignments.
For each nuclide a master table summarizing the “best” or adopted values for E_x, J^π; T and τ_m or Λ precedes the auxiliary tables listed above.
The review of each A-chain concludes with a discussion of isospin multiplets.
Figures are presented of the level schemes of all nuclei and, for each A-chain, an overview of the relative energies of the ground states and lowest analogue states of all nuclei in the chain.
Systematics of the competition between pn and d emission in heavy-ion induced nuclear reactions
1981, Physics Letters B
The competition between pn and d evaporation leading to production of the same residual nuclei has been measured for 9 heavy-ion induced nuclear reactions, each at several bombarding energies, for target-projectile combinations resulting in compound nuclei 19 ⩽ A ⩽ 71. An association of the ratio σ_pn/σ_d with the maximum excitation energy available to the residual nucleus demonstrates a systematic trend, the significance and potential applications of which are investigated.
The reaction 16O(6Li, d)20Ne at 75 MeV
1981, Physics Letters B
Comparison of alpha spectroscopic factors on Mg24,26: The (N14, B10) reaction
1982, Physical Review C
Spectroscopic strengths for Li6-induced alpha-particle transfers on O18 at 72 MeV
1982, Physical Review C

^☆: Work supported by the National Science Foundation.

^††: Present address: Nuclear Physics, Division, Bhabha Atomic Research Centre, Bombay 85, India.

^†††: Present address: Department of Physics, Ohio State University, Columbus, Ohio 43210.

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Nuclear Physics A

Abstract

References (17)

Nucl. Phys.

Nucl. Phys.

Nucl. Phys.

Phys. Lett.

Nucl. Phys.

Phys. Rev. Lett.

Nucl. Phys.

Cited by (5)

Energy levels of A = 21-44 nuclei (VII)

Systematics of the competition between pn and d emission in heavy-ion induced nuclear reactions

The reaction <sup>16</sup>O(<sup>6</sup>Li, d)<sup>20</sup>Ne at 75 MeV

Comparison of alpha spectroscopic factors on Mg24,26: The (N14, B10) reaction

Spectroscopic strengths for Li6-induced alpha-particle transfers on O18 at 72 MeV

The 16O(6Li, dγ)20Ne reaction☆

Abstract

Nucl. Phys.

Nucl. Phys.

Nucl. Phys.

Phys. Lett.

Nucl. Phys.

Phys. Rev. Lett.

Nucl. Phys.

The ¹⁶O(⁶Li, dγ)²⁰Ne reaction☆