The continuum discretized coupled-channels method and its applications
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This is a review on recent developments of the continuum discretized coupled-channels method (CDCC) and its applications to nuclear physics, cosmology and astrophysics, and nuclear engineering. The theoretical foundation of CDCC is shown, and a microscopic reaction theory for nucleus-nucleus scattering is constructed as an underlying theory of CDCC. CDCC is then extended to treat Coulomb breakup and four-body breakup. We also propose a new theory that makes CDCC applicable to inclusive reactions
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Cited by 2 Pith papers
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Geometric phase from encircling an exceptional point of a quantum resonance in the complex-scaling method
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Coulomb bridge mechanism for peripheral polarization of weakly bound projectiles
DPP decomposition in CDCC shows Coulomb bridge dominates peripheral polarization for halo systems like 11Be and 8B, with high-L breakup as signature.
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