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Main Author: Serino, Mirko
Format: Preprint
Published: 2014
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Online Access:https://arxiv.org/abs/1407.7113
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author Serino, Mirko
author_facet Serino, Mirko
contents A number of computational results concerning quantum conformal symmetry is presented. After a review of the connection between conformal symmetry for a Lagrangian field theory in flat space and Weyl symmetry for the same system embedded in a gravitational background, which is discussed in chapter 1, in chapter 2 the 3 energy momentum tensors correlation function is explicitly computed in three free field theories in 4 dimensions; the result is given for two of the three operators on the mass-shell. In chapter 3 a general method to map Green functions built in position space on the ground of symmetry requirements to momentum space, where they can be computed in terms of Feynman diagrams, is developed and discussed: an "integrability" condition, allowing to decide whether a certain correlator can exist within a Lagrangian theory, is derived. Chapter 4 discusses the possible phenomenological implications of the conformal anomaly pole which shows up in the 3 point Green function of one energy momentum tensor with two gauge currents and is interpreted as the perturbative signature of the pseudo-Goldstone boson of conformal symmetry, the dilaton. In chapter 5 we present the computation of the completely traced 4 point function of the energy momentum tensor with a method that exploits the relation between 1-loop counterterms and conformal anomalies, completely bypassing perturbative computations with Feynman diagrams. Later in chapter 6, an algorithm is developed which allows to compute recursively the completely traced Green functions of any number of energy momentum tensors in any renormalization scheme, starting from the dilaton Wess-Zumino action for conformal anomalies. This is derived by applying the Weyl-gauging procedure to the 1-loop counterterms in dimensional regularization. The result is explicitly derived and tested in 2, 4 and 6 dimensions.
format Preprint
id arxiv_https___arxiv_org_abs_1407_7113
institution arXiv
publishDate 2014
record_format arxiv
spellingShingle Conformal Anomaly Actions and Dilaton Interactions
Serino, Mirko
High Energy Physics - Theory
81T20
A number of computational results concerning quantum conformal symmetry is presented. After a review of the connection between conformal symmetry for a Lagrangian field theory in flat space and Weyl symmetry for the same system embedded in a gravitational background, which is discussed in chapter 1, in chapter 2 the 3 energy momentum tensors correlation function is explicitly computed in three free field theories in 4 dimensions; the result is given for two of the three operators on the mass-shell. In chapter 3 a general method to map Green functions built in position space on the ground of symmetry requirements to momentum space, where they can be computed in terms of Feynman diagrams, is developed and discussed: an "integrability" condition, allowing to decide whether a certain correlator can exist within a Lagrangian theory, is derived. Chapter 4 discusses the possible phenomenological implications of the conformal anomaly pole which shows up in the 3 point Green function of one energy momentum tensor with two gauge currents and is interpreted as the perturbative signature of the pseudo-Goldstone boson of conformal symmetry, the dilaton. In chapter 5 we present the computation of the completely traced 4 point function of the energy momentum tensor with a method that exploits the relation between 1-loop counterterms and conformal anomalies, completely bypassing perturbative computations with Feynman diagrams. Later in chapter 6, an algorithm is developed which allows to compute recursively the completely traced Green functions of any number of energy momentum tensors in any renormalization scheme, starting from the dilaton Wess-Zumino action for conformal anomalies. This is derived by applying the Weyl-gauging procedure to the 1-loop counterterms in dimensional regularization. The result is explicitly derived and tested in 2, 4 and 6 dimensions.
title Conformal Anomaly Actions and Dilaton Interactions
topic High Energy Physics - Theory
81T20
url https://arxiv.org/abs/1407.7113