English

Field-Dependent BRST-antiBRST Lagrangian Transformations

High Energy Physics - Theory 2015-02-03 v4 High Energy Physics - Lattice Mathematical Physics math.MP

Abstract

We continue our study of finite BRST-antiBRST transformations for general gauge theories in Lagrangian formalism, initiated in [arXiv:1405.0790[hep-th] and arXiv:1406.0179[hep-th]], with a doublet λa\lambda_{a}, a=1,2a=1,2, of anticommuting Grassmann parameters and prove the correctness of the explicit Jacobian in the partition function announced in [arXiv:1406.0179[hep-th]], which corresponds to a change of variables with functionally-dependent parameters λa=UaΛ\lambda_{a}=U_{a}\Lambda induced by a finite Bosonic functional Λ(ϕ,π,λ)\Lambda(\phi,\pi,\lambda) and by the anticommuting generators UaU_{a} of BRST-antiBRST transformations in the space of fields ϕ\phi and auxiliary variables πa,λ\pi^{a},\lambda. We obtain a Ward identity depending on the field-dependent parameters λa\lambda_{a} and study the problem of gauge dependence, including the case of Yang--Mills theories. We examine a formulation with BRST-antiBRST symmetry breaking terms, additively introduced to the quantum action constructed by the Sp(2)-covariant Lagrangian rules, obtain the Ward identity and investigate the gauge-independence of the corresponding generating functional of Green's functions. A formulation with BRST symmetry breaking terms is developed. It is argued that the gauge independence of the above generating functionals is fulfilled in the BRST and BRST-antiBRST settings. These concepts are applied to the average effective action in Yang--Mills theories within the functional renormalization group approach.

Keywords

Cite

@article{arxiv.1406.5086,
  title  = {Field-Dependent BRST-antiBRST Lagrangian Transformations},
  author = {Pavel Yu. Moshin and Alexander A. Reshetnyak},
  journal= {arXiv preprint arXiv:1406.5086},
  year   = {2015}
}

Comments

20+7 pages, no figures, presentation improved, typos corrected, reference added, remarks on composite field approach added in Sec. 4 and App. B

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