Physics – Nuclear Physics – Nuclear Theory
Scientific paper
1996-10-18
Phys.Rev.C55:411-418,1997
Physics
Nuclear Physics
Nuclear Theory
25 pages, using REVTeX, 6 postscript figures; replaced by published version
Scientific paper
10.1103/PhysRevC.55.411
We investigate the influence of medium corrections to the pion dispersion relation on the pion dynamics in intermediate energy heavy ion collisions. To do so a pion potential is extracted from the in-medium dispersion relation and used in QMD calculations and thus we take care of both, real and imaginary part of the pion optical potential. The potentials are determined from different sources, i.e. from the $\Delta$--hole model and from phenomenological approaches. Depending on the strength of the potential a reduction of the anti-correlation of pion and nucleon flow in non-central collisions is observed as well as an enhancement of the high energetic yield in transverse pion spectra. A comparison to experiments, in particular to $p_t$-spectra for the reaction Ca+Ca at 1 GeV/nucleon and the pion in-plane flow in Ne+Pb collisions at 800 MeV/nucleon, generally favours a weak potential.
Faessler Amand
Fuchs Ch.
Lehmann E.
Sehn L.
Zipprich J.
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