On-shell recursion relations for higher-spin Compton amplitudes
Abstract
We recursively construct tree-level electromagnetic and gravitational Compton amplitudes of higher-spin massive particles by the all-line transverse momentum shift. With three-point amplitude as input, we demonstrate that higher-point electromagnetic and gravitational Compton amplitudes are on-shell constructible up to spin and , respectively, under the all-line transverse shift after imposing the current constraint condition. We unambiguously derive the four-point electromagnetic and gravitational Compton amplitudes for and , which are uniquely determined by the on-shell recursion relation and are free from unphysical spurious poles. In addition, we explore amplitudes of spin- particles with non-minimal three-point interactions with photon, as well as particles, and comment on their notable features. Our work furthers the understanding of on-shell methods for massive amplitudes, with hopes to shed light on physical observables in particle physics and higher-spin amplitudes relevant for Kerr black-hole scattering.
Cite
@article{arxiv.2506.02106,
title = {On-shell recursion relations for higher-spin Compton amplitudes},
author = {Yohei Ema and Ting Gao and Wenqi Ke and Zhen Liu and Ishmam Mahbub},
journal= {arXiv preprint arXiv:2506.02106},
year = {2025}
}
Comments
32 pages, 2 tables