Saved in:
Bibliographic Details
Main Authors: Pokraka, Andrzej, Rajan, Smita, Ren, Lecheng, Volovich, Anastasia, Zhao, W. Wayne
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.09533
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910448549363712
author Pokraka, Andrzej
Rajan, Smita
Ren, Lecheng
Volovich, Anastasia
Zhao, W. Wayne
author_facet Pokraka, Andrzej
Rajan, Smita
Ren, Lecheng
Volovich, Anastasia
Zhao, W. Wayne
contents We develop a spinor helicity formalism for five-dimensional scattering amplitudes of any mass and spin configuration. While five-dimensional spinor helicity variables have been previously studied in the context of N=2,4 supersymmetric Yang-Mills scattering amplitudes with spin less than two arXiv:2202.08257, we propose an alternative viewpoint that stems from d-dimensional spinor helicity variables avoiding the use of the exceptional low-dimensional isomorphism $SO(4,1) \cong USp(2,2)$ and the decomposition of a massive momentum into the sum of two massless momenta. By enumerating all possible independent little group tensors, we systematically build the full space of five-dimensional three-point tree-level scattering amplitudes for any configuration of spins and masses. Furthermore, we provide a prescription for computing the high energy limit of scattering amplitudes written in our spinor helicity variables. We also expect that our formalism will be applicable to effective field theories with higher spin, in particular, the scattering of highly spinning black holes in five dimensions.
format Preprint
id arxiv_https___arxiv_org_abs_2405_09533
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Five-dimensional spinor helicity for all masses and spins
Pokraka, Andrzej
Rajan, Smita
Ren, Lecheng
Volovich, Anastasia
Zhao, W. Wayne
High Energy Physics - Theory
We develop a spinor helicity formalism for five-dimensional scattering amplitudes of any mass and spin configuration. While five-dimensional spinor helicity variables have been previously studied in the context of N=2,4 supersymmetric Yang-Mills scattering amplitudes with spin less than two arXiv:2202.08257, we propose an alternative viewpoint that stems from d-dimensional spinor helicity variables avoiding the use of the exceptional low-dimensional isomorphism $SO(4,1) \cong USp(2,2)$ and the decomposition of a massive momentum into the sum of two massless momenta. By enumerating all possible independent little group tensors, we systematically build the full space of five-dimensional three-point tree-level scattering amplitudes for any configuration of spins and masses. Furthermore, we provide a prescription for computing the high energy limit of scattering amplitudes written in our spinor helicity variables. We also expect that our formalism will be applicable to effective field theories with higher spin, in particular, the scattering of highly spinning black holes in five dimensions.
title Five-dimensional spinor helicity for all masses and spins
topic High Energy Physics - Theory
url https://arxiv.org/abs/2405.09533