English

Medium Effects on Binary Collisions with the Delta Resonance

Nuclear Theory 2008-11-26 v1

Abstract

To facilitate the relativistic heavy-ion calculations based on transport equations, the binary collisions involving a Δ\Delta resonance in either the entrance channel or the exit channel are investigated within a Hamiltonian formulation of πNN\pi NN interactions. An averaging procedure is developed to define a quasi-particle Δ\Delta^* and to express the experimentally measured NNπNNNN\rightarrow \pi NN cross section in terms of an effective NNNΔNN\rightarrow N\Delta^\ast cross section. In contrast to previous works, the main feature of the present approach is that the mass and the momentum of the produced Δ\Delta^*'s are calculated dynamically from the bare ΔπN\Delta \leftrightarrow \pi N vertex interaction of the model Hamiltonian and are constrained by the unitarity condition. The procedure is then extended to define the effective cross sections for the experimentally inaccessible NΔNNN\Delta^\ast \rightarrow NN and NΔNΔN\Delta^\ast \rightarrow N\Delta^\ast reactions. The predicted cross sections are significantly different from what are commonly assumed in relativistic heavy-ion calculations. The Δ\Delta potential in nuclear matter has been calculated by using a Bruckner-Hartree-Fock approximation. By including the mean-field effects on the Δ\Delta propagation, the effective cross sections of the NNNΔNN\rightarrow N\Delta^\ast, NΔNNN\Delta^\ast \rightarrow NN and NΔNΔN\Delta^\ast \rightarrow N\Delta^\ast reactions in nuclear matter are predicted. It is demonstrated that the density dependence is most dramatic in the energy region close to the pion production threshold.

Keywords

Cite

@article{arxiv.nucl-th/9602021,
  title  = {Medium Effects on Binary Collisions with the Delta Resonance},
  author = {T. -S. H. Lee},
  journal= {arXiv preprint arXiv:nucl-th/9602021},
  year   = {2008}
}

Comments

20 pages, RevTex