Journal of High Energy Physics (Sep 2024)

From higher-spin gauge interactions to Compton amplitudes for root-Kerr

  • Lucile Cangemi,
  • Marco Chiodaroli,
  • Henrik Johansson,
  • Alexander Ochirov,
  • Paolo Pichini,
  • Evgeny Skvortsov

DOI
https://doi.org/10.1007/JHEP09(2024)196
Journal volume & issue
Vol. 2024, no. 9
pp. 1 – 78

Abstract

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Abstract We develop massive higher-spin theory as a framework for describing dynamics of rotating compact objects, such as Kerr black holes. In this paper, we explore gauge interactions up to quartic order and corresponding Compton amplitudes of higher-spin massive objects coupled to electromagnetism and Yang-Mills theory. Their classical counterparts are known as root-Kerr gauge-theory solutions, whose amplitudes are closely related to those of Kerr black holes. We use three distinct approaches: (i) massive higher-spin gauge symmetry to introduce cubic interactions for all spins and the quartic interactions up to spin 3, which is implemented both off shell and via Ward identities; (ii) a chiral higher-spin approach to construct quartic Lagrangians with correct degrees of freedom to all spins; (iii) on-shell functional patterns before and after taking the classical limit to constrain the Compton amplitudes. As final results, we arrive at simple local formulae for the candidate root-Kerr Compton amplitudes both in the quantum regime and classical limit, to all orders in spin. This is a precursor to the gravitational Kerr case, which is presented in a follow-up paper.

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