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Hauptverfasser: Kim, Jung-Wook, Patil, Raj, Scheopner, Trevor, Steinhoff, Jan
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2511.05649
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author Kim, Jung-Wook
Patil, Raj
Scheopner, Trevor
Steinhoff, Jan
author_facet Kim, Jung-Wook
Patil, Raj
Scheopner, Trevor
Steinhoff, Jan
contents Two fundamentally distinct types of quantities are both called "eikonal" in present amplitudes literature. The unitarity of the S-matrix ensures it can be written as the exponential of a Hermitian operator. The eikonal generator or Magnusian, which is the classical limit of the expectation value of that operator, generates all scattering observables. The leading order classical behavior of the phase of an S-matrix element is called the classical eikonal phase, and it coincides with a classical on-shell action. We demonstrate that the eikonal generator (Magnusian) and the eikonal phase (classical on-shell action) are inequivalent and find the exact general relationship between them. That relationship explains the special case of integrable scattering in which the two do coincide up to a Legendre transformation and explains why such a correspondence fails in general when spin or radiation are included.
format Preprint
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publishDate 2025
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spellingShingle Magnusian: Relating the Eikonal Phase, the On-Shell Action, and the Scattering Generator
Kim, Jung-Wook
Patil, Raj
Scheopner, Trevor
Steinhoff, Jan
High Energy Physics - Theory
General Relativity and Quantum Cosmology
Two fundamentally distinct types of quantities are both called "eikonal" in present amplitudes literature. The unitarity of the S-matrix ensures it can be written as the exponential of a Hermitian operator. The eikonal generator or Magnusian, which is the classical limit of the expectation value of that operator, generates all scattering observables. The leading order classical behavior of the phase of an S-matrix element is called the classical eikonal phase, and it coincides with a classical on-shell action. We demonstrate that the eikonal generator (Magnusian) and the eikonal phase (classical on-shell action) are inequivalent and find the exact general relationship between them. That relationship explains the special case of integrable scattering in which the two do coincide up to a Legendre transformation and explains why such a correspondence fails in general when spin or radiation are included.
title Magnusian: Relating the Eikonal Phase, the On-Shell Action, and the Scattering Generator
topic High Energy Physics - Theory
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2511.05649