Abstract
We investigate nuclear matter, i.e., the nuclear equation-of-state as well as the relativistic mean fields in the chiral limit. The investigations are based on a chiral nucleon–nucleon EFT interaction where the explicit and implicit pion mass dependence is known up to next-to-leading order. The nuclear bulk properties are found to remain fairly stable in the chiral limit. Based on the same interaction the in-medium scalar condensate is derived, both in Hartree–Fock approximation as well as from the Brueckner G-matrix, making thereby use of the Hellman–Feynman theorem. Short distance physics which determines the reduction of the in-medium nucleon mass is found to play only a minor role for the reduction of the chiral condensate.
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