Channel couplings in weakly bound nuclear reactions redirect absorbed flux from peripheral loss to inner fusion above the barrier, explaining complete-fusion suppression via an exact identity within the CC/CDCC model.
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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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Channel couplings redirect absorbed flux from peripheral loss to fusion in weakly bound nuclear reactions
Channel couplings in weakly bound nuclear reactions redirect absorbed flux from peripheral loss to inner fusion above the barrier, explaining complete-fusion suppression via an exact identity within the CC/CDCC model.
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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.