Particle theory

THE HIGH TEMPERATURE PHASE TRANSITION IN SU(N) GAUGE THEORIES

Journal of High Energy Physics (2004)

Authors:

MJ Teper, B. Lucini, U. Wenger

Hybrid Meson Production by Electromagnetic and Weak Interactions in a Flux-Tube Model

Physical Review D 69 (2004) 034010;1-18

Authors:

FE Close, J J Dudek

Rolling G₂Moduli

Journal of High Energy Physics Springer Science and Business Media LLC 2004:01 (2004) 045-045

Authors:

Andre Lukas, Stephen Morris

Chiral symmetry breaking and topology for all N

Nuclear Physics B - Proceedings Supplements 129-130 (2004) 489-491

Authors:

N Cundy, M Teper, U Wenger

Abstract:

We investigate spontaneous chiral symmetry breaking in SU(N) gauge theories at large N using overlap fermions. The exact zero modes and the low-lying modes of the Dirac operator provide the tools to gain insight into the interplay between chiral symmetry breaking and topology. We find that topology indeed drives chiral symmetry breaking at N = 3 as well as at large N. By comparing the results on various volumes and at different lattice spacings we are able to show that our conclusions are not affected by finite volume effects and also hold in the continuum limit. We then address the question whether the topology can be usefully described in terms of instantons. © 2004 Elsevier B.V. All rights reserved.

Gauge five-brane dynamics and small instanton transitions in heterotic models

Physical Review D - Particles, Fields, Gravitation and Cosmology 69:12 (2004)

Authors:

J Gray, A Lukas, GI Probert

Abstract:

We present the first examples of cosmological solutions to four-dimensional heterotic models which include an evolving bundle modulus. The particular bundle modulus we consider corresponds to the width of a gauge five brane. As such our solutions can be used to describe the evolution in one of these models after a small instanton transition. We find that certain properties are generic to these solutions, regardless of initial conditions. This enables us to make some definite statements about the dynamics subsequent to a small instanton transition despite the fact that we cannot microscopically describe the process itself. We also show that an effective description of the small instanton transition by a continuous matching of fields and their first derivatives is precluded by the form of the respective low-energy theories before and after the transition. © 2004 The American Physical Society.