Addressing γ5 in Nondimensional Regularizations: A Case Study on the Bumblebee Model
Abstract
We examine the subtleties of regularization schemes in four-dimensional space (4S), related in particular to the introduction of the γ5 matrix. To illustrate we use a "Bumblebee" model featuring dynamically induced Lorentz symmetry violation. The analysis centers on how different regularization methods affect the solutions to the gap equation in this model. We highlight the resolution of ambiguities associated with the γ5 matrix in ultraviolet divergent integrals by employing an enhanced Implicit Regularization (IREG) method. This method extends IREG to a quasi-four-dimensional space, Q4S = 4S X, drawing parallels with the consistent approach of Dimensional Reduction (DRED). Comparative analysis is conducted against results from the 't Hooft-Veltman regularization scheme, conventional IREG in strict 4S, and sharp momentum cutoff techniques. Our results illustrate a scheme to compute γ5 interactions in physical dimension of divergent amplitudes, confirming the approach in [1].
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