We investigate the mapping of conformal correlators and of their anomalies from configuration to momen- tum space for general dimensions, focusing on the anomalous correlators TOO, TVV - involving the energy- momentum tensor (T ) with a vector (V ) or a scalar operator (O) - and the 3-graviton vertex T T T . We compute the T OO, T V V and T T T one-loop vertex functions in dimensional regularization for free field theories involving conformal scalar, fermion and vector fields. Since there are only one or two independent tensor structures solv- ing all the conformal Ward identities for the T OO or T V V vertex functions respectively, and three independent tensor structures for the T T T vertex, and the coefficients of these tensors are known for free fields, it is possible to identify the corresponding tensors in momentum space from the computation of the correlators for free fields. This works in general d dimensions for T OO and T V V correlators, but only in 4 dimensions for T T T , since vector fields are conformal only in d = 4. In this way the general solution of the Ward identities including anomalous ones for these correlators in (Euclidean) position space, found by Osborn and Petkou is mapped to the ordinary diagrammatic one in momentum space. We give simplified expressions of all these correlators in configuration space which are explicitly Fourier integrable and provide a diagrammatic interpretation of all the contact terms arising when two or more of the points coincide. We discuss how the anomalies arise in each approach. We then outline a general algorithm for mapping correlators from position to momentum space, and illustrate its application in the case of the V V V and T OO vertices. The method implements an intermediate regularization - similar to differential regularization - for the identification of the integrands in momentum space, and one extra regulator. The relation between the ordinary Feynman expansion and the logarithmic one generated by this approach are briefly discussed.

Graviton vertices and the mapping of anomalouscorrelators to momentum space for a generalconformal field theory

CORIANO', Claudio;DELLE ROSE, LUIGI;SERINO, MIRKO
2012-01-01

Abstract

We investigate the mapping of conformal correlators and of their anomalies from configuration to momen- tum space for general dimensions, focusing on the anomalous correlators TOO, TVV - involving the energy- momentum tensor (T ) with a vector (V ) or a scalar operator (O) - and the 3-graviton vertex T T T . We compute the T OO, T V V and T T T one-loop vertex functions in dimensional regularization for free field theories involving conformal scalar, fermion and vector fields. Since there are only one or two independent tensor structures solv- ing all the conformal Ward identities for the T OO or T V V vertex functions respectively, and three independent tensor structures for the T T T vertex, and the coefficients of these tensors are known for free fields, it is possible to identify the corresponding tensors in momentum space from the computation of the correlators for free fields. This works in general d dimensions for T OO and T V V correlators, but only in 4 dimensions for T T T , since vector fields are conformal only in d = 4. In this way the general solution of the Ward identities including anomalous ones for these correlators in (Euclidean) position space, found by Osborn and Petkou is mapped to the ordinary diagrammatic one in momentum space. We give simplified expressions of all these correlators in configuration space which are explicitly Fourier integrable and provide a diagrammatic interpretation of all the contact terms arising when two or more of the points coincide. We discuss how the anomalies arise in each approach. We then outline a general algorithm for mapping correlators from position to momentum space, and illustrate its application in the case of the V V V and T OO vertices. The method implements an intermediate regularization - similar to differential regularization - for the identification of the integrands in momentum space, and one extra regulator. The relation between the ordinary Feynman expansion and the logarithmic one generated by this approach are briefly discussed.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11587/371252
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