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Bibliographic Details
Main Authors: Kakkad, Hiren, Kotko, Piotr, Stasto, Anna
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.13314
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author Kakkad, Hiren
Kotko, Piotr
Stasto, Anna
author_facet Kakkad, Hiren
Kotko, Piotr
Stasto, Anna
contents We develop quantum corrections to the Wilson line-based action which we recently derived through a transformation that eliminates triple gluon vertices from the Yang-Mills action on the light-cone. The action efficiently computes high multiplicity tree-level split-helicity amplitudes with the number of diagrams following the Delannoy number series. However, the absence of the triple gluon vertices results in missing loop contributions. To remedy this, we develop two equivalent approaches using the one-loop effective action method to systematically incorporate loop contributions to our action. In one approach there are solely Yang-Mills vertices in the loop whereas the other uses the interaction vertices of our action along with the kernels of the solution of our transformation in the loop. In addition to demonstrating the equivalence of both approaches, we validated the quantum completeness of the former by computing all 4-point one-loop amplitudes which could not be previously computed. Both of our approaches are easily extendable to develop quantum corrections to other reformulations of the Yang-Mills theory obtained via non-linear classical field transformations eliminating interaction vertices.
format Preprint
id arxiv_https___arxiv_org_abs_2406_13314
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Wilson line-based action for gluodynamics at the loop level
Kakkad, Hiren
Kotko, Piotr
Stasto, Anna
High Energy Physics - Theory
We develop quantum corrections to the Wilson line-based action which we recently derived through a transformation that eliminates triple gluon vertices from the Yang-Mills action on the light-cone. The action efficiently computes high multiplicity tree-level split-helicity amplitudes with the number of diagrams following the Delannoy number series. However, the absence of the triple gluon vertices results in missing loop contributions. To remedy this, we develop two equivalent approaches using the one-loop effective action method to systematically incorporate loop contributions to our action. In one approach there are solely Yang-Mills vertices in the loop whereas the other uses the interaction vertices of our action along with the kernels of the solution of our transformation in the loop. In addition to demonstrating the equivalence of both approaches, we validated the quantum completeness of the former by computing all 4-point one-loop amplitudes which could not be previously computed. Both of our approaches are easily extendable to develop quantum corrections to other reformulations of the Yang-Mills theory obtained via non-linear classical field transformations eliminating interaction vertices.
title Wilson line-based action for gluodynamics at the loop level
topic High Energy Physics - Theory
url https://arxiv.org/abs/2406.13314