Abstract
In this work we discuss kinematical and dynamical factors which could result in inhibition of the deuteron-stripping threshold effects. These effects are determined both by the reaction mechanism of (d, p) background reaction and by the strength function of the 3p-wave neutron single-particle threshold resonance. The inhibiting factors related to the reaction background depend on its multistep components (small spectroscopic factor), Q-value and transferred angular momentum. The two spin-orbit components of the p-wave neutron zero-energy resonance yield different values for quantum kinematical factors, threshold compression factors, and threshold anomal terms; they result in a diminution of the 3p 1/2 threshold effect as compared to the 3p 3/2 one.
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