F. Klingl, W. Weise
Published 1997-02-04Version 1
Based on an effective Lagrangian which combines chiral SU(3) dynamics with vector meson dominance, we have developed a model for the s-wave vector meson-nucleon scattering amplitudes. We use this as an input for the low energy part of the current-current correlation function in nuclear matter. Its spectrum enters directly in the ``left hand side'' of QCD sum rules. For the isovector channel we find a significant enhancement of the in-medium spectral density below the $\rho$ resonance while the mass of $\rho$ meson itself decreases only slightly. The situation is different in the isoscalar channel. Here the mass and therefore the peak position of the $\omega$ meson decreases strongly while the width increases less drastically than in the $\rho$ meson case. For the $\phi$ meson we find almost no mass shift, the width of the peak broadens due to the imaginary part of the scattering length. We find a remarkable degree of consistency with the operator product expansion of QCD sum rules in all three channels.
Comments: 10 pages of LaTeX-2E using axodraw.sty, epsfig.sty; 2 postscript figures included; Proc. of the Int. Workshop XXV, Hirschegg '97, on 'QCD Phase Transitions'
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