C. R. Das, L. V. Laperashvili, H. B. Nielsen
Published 2005-10-29, updated 2005-11-04Version 2
In the present talk we present an investigation of nonabelian SU(N) gauge theories, describing a system of fields with non--dual g and dual \tilde g charges and revealing the generalized dual symmetry. The Zwanziger type action is suggested. The renormalization group equations for pure nonabelian theories, in particular for pure SU(3)\times\widetilde{SU(3)} gauge theory (as an example) are analysed. We consider not only monopoles, but also dyons. The behaviour of the QCD total beta--function is investigated. It was shown that this beta--function is antisymmetric under the interchange \alpha\leftrightarrow\frac 1\alpha (here \alpha\equiv\alpha_s), and has zero ("fixed point") at \alpha = 1. Monopoles, or dyons, are responsible for the phase transition. Considering critical points at \alpha_1\approx 0.4 and \alpha_2\approx 2.5, we give an explanation of the freezing of \alpha_s.
Comments: 15 pages, 5 figures, Presented at the 12th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, 25-31 August, 2005
Journal: Proceedings of the 12th Lomonosov Conference on Elementary Particle Physics, World Scientific Publishing Co., Singapore, pp. 363-366 (2006).
The Free Energy Of Hot Gauge Theories
UV and IR Zeros of Gauge Theories at The Four Loop Order and Beyond
Solution to the Perturbative Infrared Catastrophe of Hot Gauge Theories
