Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1993-07-13
Nucl.Phys. B418 (1994) 494-528
Physics
High Energy Physics
High Energy Physics - Theory
37 pages, 5 figs. not included (available upon request), LaTeX, PREPRINT UB-ECM-PF 93/15
Scientific paper
10.1016/0550-3213(94)90528-2
Chiral lagrangians describing the interactions of Goldstone bosons in a theory possessing spontaneous symmetry breaking are effective, non-renormalizable field theories in four dimensions. Yet, in a momentum expansion one is able to extract definite, testable predictions from perturbation theory. These techniques have yielded in recent years a wealth of information on many problems where the physics of Goldstone bosons plays a crucial role, but theoretical issues concerning chiral perturbation theory remain, to this date, poorly treated in the literature. We present here a rather comprehensive analysis of the regularization and renormalization ambiguities appearing in chiral perturbation theory at the one loop level. We discuss first on the relevance of dealing with tadpoles properly. We demonstrate that Ward identities severely constrain the choice of regulators to the point of enforcing unique, unambiguous results in chiral perturbation theory at the one-loop level for any observable which is renormalization-group invariant. We comment on the physical implications of these results and on several possible regulating methods that may be of use for some applications.
Espriu Domenec
Matias Joaquim
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