Elsevier

Nuclear Physics A

Volume 333, Issue 2, 14 January 1980, Pages 285-301
Nuclear Physics A

Promptly emitted particles in nuclear collisions

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Abstract

We discuss a mechanism in which the nucleons transferred in nuclear collisions are emitted promptly into the continuum via the coupling of internal nucleon motion to the relative motion of the nuclei. The dynamics and the details of transfer are treated in the proximity picture. High energy components of nucleon spectra from fusion experiments are compared to the model predictions.

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Cited by (233)

  • Incomplete fusion reactions using strongly and weakly bound projectiles

    2020, Physics Reports
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    On the theoretical side, several models have been developed for ICF, in particular to describe the emission of fast particles in ICF processes. The models such as, promptly emitted particles [21] or Fermi jets [22] models that assume the particle emission with transferred nucleons receiving energy boost arising from the coupling of the original internal (Fermi) velocity of the nucleon with the relative motion of reaction partners, have been proposed for the description of the fast particles. Other models such as, the exciton [23], hot-spot coalescence [24], moving-source [25] and overlap [26] have also been employed.

  • Nuclear jets in heavy-ion collisions

    2019, Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
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Permanent address: Institute for Theoretical Physics, Eötvös University, H-1088 Budapest, Pushkin u-5, Hungary.

††

Permanent address: Nuclear Science Division, Lawrence Berkeley Laboratory, Berkeley, California 94720, USA.

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