A pseudo-conformal structure in dense baryonic matter

Abstract

We clarify and extend further the idea developed in PKLMR,MLPR that baryonic matter at high density has an emergent "pseudo-conformal symmetry." It is argued that as baryonic density exceeds n n1/2 2n0, a topology change mimicking the baryon-quark continuity takes place at n1/2. In terms of skyrmions, this corresponds to the transition from skyrmions to half-skyrmions and impacts on the equation of state of dense baryonic matter. The emergence in medium at n1/2 of parity-doublet symmetry -- which is invisible in QCD in matter-free vacuum -- plays the crucial role. The consequence of the topology change is that massive compact stars carry the "pseudo-conformal sound velocity" vs2/c2≈ 1/3 at n n1/2 signaling a precursor to precocious emergence of scale symmetry as well as a local symmetry hidden in QCD in the matter-free vacuum. A highly significant prediction of this work is that the topology change density from normal matter to half-skyrmion matter, up-to-date inaccessible either by QCD proper or by terrestrial experiments, could possibly be pinned down within the range 2 < n1/2/n0 < 4, commensurate with the range expected for a continuous hadrons-to-quarks/gluons transition.