Inelastic Coupled-Channel Eikonal Scattering
Abstract
Emitted radiation and absorption effects in black hole dynamics lead to inelastic scattering amplitudes. In this paper, we study how these effects introduce an inelasticity function to the eikonalised -matrix and how they can be described using unequal mass and spin on-shell amplitudes. To achieve this, we formulate the inelastic coupled-channel eikonal (ICCE) using the KMOC formalism and the language of quantum channels, where off-diagonal channels involve mass and spin changes. This formulation allows us to re-use usual eikonal results but also suggests a different resummation of inelastic effects. We then apply this formulation to calculate classical inelastic processes, such as the mass change in binary dynamics due to the presence of an event horizon. Additionally, we provide a complementary analysis for the case of wave scattering on a black hole, considering absorption effects. In both scenarios, we derive unitarity relations accounting for inelastic effects.
Cite
@article{arxiv.2411.02294,
title = {Inelastic Coupled-Channel Eikonal Scattering},
author = {Rafael Aoude and Andrea Cristofoli and Asaad Elkhidir and Matteo Sergola},
journal= {arXiv preprint arXiv:2411.02294},
year = {2025}
}
Comments
30 pages, 2 figures, 1 appendix. v2: Published version, updated references and minor corrections