arXiv:hep-ph/9411265 Abstract

arXiv:hep-ph/9411265Abstract References Reviews Resources

QCD sum rules for $Δ$ isobar in nuclear matter

Published 1994-11-10Version 1

The self-energies of $\Delta$ isobar propagating in nuclear matter are calculated using the finite-density QCD sum-rule methods. The calculations show that the Lorentz vector self-energy for the $\Delta$ is significantly smaller than the nucleon vector self-energy. The magnitude of the $\Delta$ scalar self-energy is larger than the corresponding value for the nucleon, which suggests a strong attractive net self-energy for the $\Delta$; however, the prediction for the scalar self-energy is very sensitive to the density dependence of certain in-medium four-quark condensate. Phenomenological implications for the couplings of the $\Delta$ to the nuclear scalar and vector fields are briefly discussed.

Comments: 9 pages, 1 figure, which can be obtained upon request

Journal: Phys.Rev.C51:2260-2263,1995

DOI: 10.1103/PhysRevC.51.2260

Categories: hep-ph

Keywords: qcd sum rules, nuclear matter, finite-density qcd sum-rule methods, scalar self-energy, in-medium four-quark condensate

Tags: journal article

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