SU(N) gauge theories in 2+1 dimensions
Physical Review D - Particles, Fields, Gravitation and Cosmology 59:1 (1999) 1-37
Abstract:
We calculate the mass spectra and string tensions of SU(2), SU(3), SU(4) and SU(5) gauge theories in 2+1 dimensions. We do so by simulating the corresponding lattice theories and then extrapolating dimensionless mass ratios to the continuum limit. We find that such mass ratios are, to a first approximation, independent of the number of colors, Nc, and that the remaining dependence can be accurately reproduced by a simple O(1/Nc2) correction. This provides us with a prediction of these mass ratios for all SU(Nc) theories in 2+1 dimensions and demonstrates that these theories are already "close" to Nc=∞ for Nc≥2. We find that the theory retains a non-zero confining string tension as Nc→∞ and that the dimensionful coupling g2 is proportional to 1/Nc at large Nc, when expressed in units of the dynamical length scale of the theory. During the course of these calculations we study in detail the effects of including over-relaxation in the Monte Carlo calculation, of using a mean-field improved coupling to extrapolate to the continuum limit, and the use of space-time asymmetric lattice actions to resolve heavy glueball correlators. ©1998 The American Physical Society.Scale of SU(2)R symmetry breaking and leptogenesis
Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics 458:1 (1999) 73-78
Abstract:
Models of leptogenesis often invoke the out-of-equilibrium decays of heavy right-handed neutrinos in order to create a baryon asymmetry of the universe through the electroweak phase transition. Their presumed existence argues strongly for the presence of an SU(2)R gauge symmetry. We study the equilibrating effects of the resulting additional right-handed interactions and find that successful leptogenesis requires that mN≳1016 GeV if mN>mWR, and mWRR≳2× 105 GeV(mN/102 GeV)3//4 if mNSpectral density from instantons in quenched QCD
Physical Review D - Particles, Fields, Gravitation and Cosmology 60:5 (1999)
Abstract:
We investigate the contribution of instantons to the eigenvalue spectrum of the Dirac operator in quenched QCD. The instanton configurations that we use have been derived, elsewhere, from cooled SU(3) lattice gauge fields and, for comparison, we also analyze a random “gas” of instantons. Using a set of simplifying approximations, we find a non-zero chiral condensate. However, we also find that the spectral density diverges for small eigenvalues, so that the chiral condensate, at zero quark mass, diverges in quenched QCD. The degree of divergence decreases with the instanton density, so that it is negligible for the smallest number of cooling sweeps but becomes substantial for larger number of cools. We show that the spectral density scales, that finite volume corrections are small and we see evidence for the screening of topological charges. However, we also find that the spectral density and chiral condensate vary rapidly with the number of cooling sweeps — unlike, for example, the topological susceptibility. Whether the problem lies with the cooling or with the identification of the topological charges is an open question. This problem needs to be resolved before one can determine how important the divergence we have found is for quenched QCD. © 1999 The American Physical Society.The string tension in the maximally Abelian gauge after smoothing
Nuclear Physics B - Proceedings Supplements 73:1-3 (1999) 536-538
Abstract:
We apply smoothing to SU(2) lattice field configurations in 3+1 dimensions before fixing to the maximally Abelian gauge. The Abelian projected string tension is shown to be stable under this, whilst the monopole string tension declines by O (30%). Blocking of the SU(2) fields reduces this effect, but the use of extended monopole definitions does not. We discuss these results in the context of additional confining excitations in the U(1) vacuum.An introduction to leading and next-to-leading BFKL
ACTA PHYSICA POLONICA B 30:12 (1999) 3679-3705