We find that, when the dilaton is implemented as a (pseudo-) Nambu-Goldstone boson using a conformal compensator or "conformon" in a hidden gauge symmetric Lagrangian written to O(p(4)) from which baryons arise as solitons, namely, skyrmions, the vector manifestation and chiral symmetry restoration at high density predicted in hidden local symmetry theory-which is consistent with Brown-Rho scaling-are lost or sent to infinite density. It is shown that they can be restored if in medium the behavior of the. field is taken to deviate from that of the rho meson in such a way that the flavor U(2) symmetry is strongly broken at increasing density. The hitherto unexposed crucial role of the omega meson in the structure of elementary baryon and multibaryon systems is uncovered in this work. In the state of half-skyrmions to which the skyrmions transform at a density n(1/2) greater than or similar to n(0) (where n(0) is the normal nuclear matter density), characterized by the vanishing (space averaged) quark condensate but nonzero pion decay constant, the nucleon mass remains more or less constant at a value greater than or similar to 60% of the vacuum value, indicating a large component of the nucleon mass that is not associated with the spontaneous breaking of chiral symmetry. We discuss its connection to the chiral-invariant mass m(0) that figures in the parity-doublet baryon model.

• 出版日期2014-8-18
• 单位吉林大学; 中国地震局