Antikaon production in A+A collisions at SIS energies within an off-shell G-matrix approach
Abstract
The production and propagation of antikaons -- described by dynamical spectral functions Ah(X,P,M2) as evaluated from a coupled channel G-matrix approach -- is studied for nucleus-nucleus collisions at SIS energies in comparison to the conventional quasi-particle limit and the available experimental data using off-shell transport theory. We find that the K- spectra for 12C + 12C and 58Ni + 58Ni at 1.8 A·GeV remain underestimated in the G-matrix approach as in the on-shell quasi-particle approximation whereas the preliminary spectra for Au + Au at 1.5 A·GeV are well described in both limits. This also holds approximately for the K- rapidity distributions in semi-central collisions of Ni+Ni at 1.93 A·GeV. However, in all limits considered there is no convincing description of all spectra simultaneously. Our off-shell transport calculations, furthermore, demonstrate that the strongest in-medium effects should be found for low antikaon momenta in the center-of-mass frame, since the deceleration of the antikaons in the attractive Coulomb and nuclear potentials and the propagation to the on-shell mass induces a net shift and squeezing of the K- spectra to the low momentum regime.
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