Color confinement due to spontaneous breaking of magnetic U(1)m8
Abstract
The violation of non-Abelian Bianchi identity is equal to 8 Abelian monopole currents of the Dirac type satisfying Abelian conservation rules kinematically. There exist magnetic U(1)m8 symmetries in non-Abelian SU(3) QCD. When the magnetic U(1)m8 symmetries are broken spontaneously, only states which are invariant under all U(1)e subgroups of SU(3) can exist as a physical state. Such states are SU(3) singlets. The QCD vacuum in the confinement phase is characterized by one long percolating monopole loop running over the whole lattice volume in both quenched and full QCD. The long loop in full QCD is on average a few times longer in comparison with that in quenched QCD case. Surprisingly, the monopole behaviors in full QCD seem independent of the bare quark mass suggesting irrelevance of Abelian monopoles to the chiral symmetry breaking mechanism. Existence of such Abelian magnetic monopoles in the continuum limit is studied in detail in SU(3) by means of a block spin transformation of monopoles and the inverse Monte-Carlo method. The monopole density and the infrared effective monopole action S(k) of n blocked monopoles are determined for a(β)=(0.04 2)fm and n=1 12 blockings on 484 lattice in quenched QCD and for a(β)=0.0846(7)fm and n=1 24 on 964 in full QCD at mπ=146MeV. Originally and S(k) are a two-point function of a(β) and the number of times of the blocking transformation n. However, both are found to be a function of b=na(β) alone in the quenched QCD which suggests the existence of the continuum limit. In the full QCD, the renormalization flow is observed similarly but the scaling is not yet proved. The distributions of the long loops show that monopole condensation occurs due to the entropy dominance over the energy for all b considered.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.