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Shell-model-based deformation analysis of light cadmium isotopes

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Abstract
Large-scale shell-model calculations for the even-even cadmium isotopes Cd-98-Cd-108 have been performed with the ANTOINE code in the pi(2p(1/2); 1g(9/2)).(2d(5/2); 3s(1/2); 2d(3/2); 1g(7/2); 1h(11/2)) model space without further truncation. Known experimental energy levels and B(E2) values could be well reproduced. Taking these calculations as a starting ground we analyze the deformation parameters predicted for the Cd isotopes as a function of neutron number N and spin J using the methods of model independent invariants introduced by Kumar [Phys. Rev. Lett. 28, 249 (1972)] and Cline [Annu. Rev. Nucl. Part. Sci. 36, 683 (1986)].
Keywords
PARTICLE-HOLE EXCITATIONS, INTERACTING BOSON MODEL, EVEN CD NUCLEI, COULOMB-EXCITATION, SHAPE COEXISTENCE, INTRUDER STATES, MIXED, CONFIGURATIONS, QUADRUPOLE-MOMENTS, COLLECTIVE MOTION, ATOMIC-NUCLEI

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Citation

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Chicago
Schmidt, T, Kristiaan Heyde, A Blazhev, and J Jolie. 2017. “Shell-model-based Deformation Analysis of Light Cadmium Isotopes.” Physical Review C 96 (1).
APA
Schmidt, T., Heyde, K., Blazhev, A., & Jolie, J. (2017). Shell-model-based deformation analysis of light cadmium isotopes. PHYSICAL REVIEW C, 96(1).
Vancouver
1.
Schmidt T, Heyde K, Blazhev A, Jolie J. Shell-model-based deformation analysis of light cadmium isotopes. PHYSICAL REVIEW C. 2017;96(1).
MLA
Schmidt, T, Kristiaan Heyde, A Blazhev, et al. “Shell-model-based Deformation Analysis of Light Cadmium Isotopes.” PHYSICAL REVIEW C 96.1 (2017): n. pag. Print.
@article{8544960,
  abstract     = {Large-scale shell-model calculations for the even-even cadmium isotopes Cd-98-Cd-108 have been performed with the ANTOINE code in the pi(2p(1/2); 1g(9/2)).(2d(5/2); 3s(1/2); 2d(3/2); 1g(7/2); 1h(11/2)) model space without further truncation. Known experimental energy levels and B(E2) values could be well reproduced. Taking these calculations as a starting ground we analyze the deformation parameters predicted for the Cd isotopes as a function of neutron number N and spin J using the methods of model independent invariants introduced by Kumar [Phys. Rev. Lett. 28, 249 (1972)] and Cline [Annu. Rev. Nucl. Part. Sci. 36, 683 (1986)].},
  articleno    = {014302},
  author       = {Schmidt, T and Heyde, Kristiaan and Blazhev, A and Jolie, J},
  issn         = {2469-9985},
  journal      = {PHYSICAL REVIEW C},
  keyword      = {PARTICLE-HOLE EXCITATIONS,INTERACTING BOSON MODEL,EVEN CD NUCLEI,COULOMB-EXCITATION,SHAPE COEXISTENCE,INTRUDER STATES,MIXED,CONFIGURATIONS,QUADRUPOLE-MOMENTS,COLLECTIVE MOTION,ATOMIC-NUCLEI},
  language     = {eng},
  number       = {1},
  pages        = {14},
  title        = {Shell-model-based deformation analysis of light cadmium isotopes},
  url          = {http://dx.doi.org/10.1103/PhysRevC.96.014302},
  volume       = {96},
  year         = {2017},
}

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