Quantum Field Theory, Feynman-, Wheeler Propagators, Dimensional Regularization in Configuration Space and Convolution of Lorentz Invariant Tempered Distributions

Abstract

The Dimensional Regularization of Bollini and Giambiags (Phys. Lett. B 40, 566 (1972), Il Nuovo Cim. B 12, 20 (1972). Phys. Rev. D 53, 5761 (1996)) can not be defined for all Schwartz Tempered Distributions Explicitly Lorentz Invariant (STDELI) S'L. In this paper we overcome here such limitation and show that it can be generalized to all aforementioned STDELI and obtain a product in a ring with zero divisors. For this purpose, we resort to a formula obtained in [Int. J. of Theor. Phys. 43, 1019 (2004)] and demonstrate the existence of the convolution (in Minkowskian space) of such distributions. This is done by following a procedure similar to that used so as to define a general convolution between the Ultradistributions of J. Sebastiao e Silva [Math. Ann. 136, 38 (1958)], also known as Ultrahyperfunctions, obtained by Bollini et al. [Int. J. of Theor. Phys. 38, 2315 (1999), 43, 1019 (2004), 43, 59 (2004), 46, 3030 (2007)]. Using the Inverse Fourier Transform we get the ring with zero divisors S'LA, defined as S'LA= F-1\ S'L\, where F-1 denotes the Inverse Fourier Transform. In this manner we effect a dimensional regularization in momentum space (the ring S'L) via convolution, and a product of distributions in the corresponding configuration space (the ring S'LA). This generalizes the results obtained by Bollini and Giambiagi for Euclidean space in [Phys. Rev. D 53, 5761 (1996)]. We provide several examples of the application of our new results in Quantum Field Theory. In particular, the convolution of n massless Feynman propagators and the convolution of n massless Wheeler propagators in Minkowskian space.