Gribov copies in the maximally Abelian gauge and confinement
Physical Review D - Particles, Fields, Gravitation and Cosmology 55:6 (1997) 3756-3767
Abstract:
We fix SU(2) lattice gauge fields to the maximally Abelian gauge in both three and four dimensions. We extract the corresponding U(1) fields and monopole current densities and calculate separately the confining string tensions arising from these U(1) fields and monopole “condensates.” We generate multiple Gribov copies and study how the U(1) fields and monopole distributions vary between these different copies. As expected, we find substantial variations in the number of monopoles, their locations, and in the values of the U(1) field strengths. The string tensions extracted from “extreme” Gribov copies also differ but this difference appears to be no more than about 20%. We also directly compare the fields of different Gribov copies. We find that on the distance scales relevant to confinement, the U(1) and monopole fluxes that disorder Wilson loops are highly correlated between these different Gribov copies. All this suggests that while there is indeed a Gribov copy problem the resulting ambiguity is, in this gauge and for the study of confinement, of limited importance. © 1997 The American Physical Society.Mass spectrum of the 3d SU(2) Higgs model and the symmetric electroweak phase
Nuclear Physics B - Proceedings Supplements 53:1-3 (1997) 626-628
Abstract:
We present results for the masses of the low-lying states with quantum numbers 0++, 2++ and 1-- as well as Polyakov line correlations in the Higgs and confinement regions of the 3d SU(2) Higgs model. In the confinement phase we find a dense spectrum of bound states approximately split into two disjoint sectors. One consists of W-balls nearly identical to the glueball spectrum of the pure gauge theory, the other of bound states of scalars.Monopole spectra in non-Abelian gauge theories
Nuclear Physics B - Proceedings Supplements 53:1-3 (1997) 497-499
Abstract:
We study the continuum limit of the length spectrum of magnetic monopole structures found after various Abelian projections of pure gauge SU(2), including the maximally Abelian gauge. We comment on Gribov copies, and measurements of the string tension.SU(Nc ) gauge theories for all Nc
Nuclear Physics B - Proceedings Supplements 53:1-3 (1997) 715-718
Abstract:
We show that SU (Nc) gauge theories in 2+1 dimensions are close to Nc = ∞ for Nc ≥ 2. The dimensionful coupling, g2, is proportional to 1/Nc, at large Nc, confirming the usual diagram-based expectation. Preliminary calculations in 3+1 dimensions indicate that the same is true there.COMMENTS ON THE HIGH Q**2 HERA ANOMALY
Phys.Lett.B 402 (1997) 367