V. Gogohia
Published 2004-06-07, updated 2005-03-07Version 3
The proof of the failure of the ladder approximation to QCD is given in manifestly gauge-invariant way. This proof is valid for the full gluon propagator and for all types of quarks. The summation of the ladder diagrams within the Schwinger-Dyson integral equation for the quark-gluon vertex, on account of the corresponding Slavnov-Taylor identity, provides an additional constraint on the quark Schwinger-Dyson equation itself in the ladder approximation. It requires that there is neither running nor current quark masses in the ladder approximation. Thus, all the results based on the nontrivial (analytical or numerical) solutions to the quark Schwinger-Dyson equation in the ladder approximation should be reconsidered, and its use in the whole energy/momentum range should be abandoned.
Comments: 7 pages, no tables and figures, a few new references are introduced as well as some clarifications have been added
Journal: Phys.Lett. B611 (2005) 129-136
How to demonstrate a possible existence of a mass gap in QCD
The color gauge invariance and a possible origin of a mass gap in QCD
Dynamical generation of the mass gap in QCD
