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Autores principales: Christodoulou, Stavros, Toumbas, Nicolaos
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2603.18587
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author Christodoulou, Stavros
Toumbas, Nicolaos
author_facet Christodoulou, Stavros
Toumbas, Nicolaos
contents We study soft emission in QED during scattering of Faddeev-Kulish dressed states. The incoming and outgoing charged particles are accompanied by coherent clouds of soft photons with energies below a characteristic infrared scale $E_d$. We focus on explicit processes that allow the dependence of the soft factors on the hard particles' momenta and total angular momenta to be displayed clearly. We argue that the dressings remove the infrared divergences in hard amplitudes order by order in perturbation theory, effectively regulating the contributions from virtual soft photons at the scale $E_d$. Essentially, the Faddeev-Kulish hard amplitudes become equivalent to the infrared-finite part of the corresponding Fock-basis amplitudes. Finally, tree-level soft-photon emission is found to be suppressed once the dressings are extended to subleading order in the soft-momentum expansion, as prescribed in recent work by Choi and Akhoury.
format Preprint
id arxiv_https___arxiv_org_abs_2603_18587
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Subleading soft dressings for QED scattering states
Christodoulou, Stavros
Toumbas, Nicolaos
High Energy Physics - Theory
We study soft emission in QED during scattering of Faddeev-Kulish dressed states. The incoming and outgoing charged particles are accompanied by coherent clouds of soft photons with energies below a characteristic infrared scale $E_d$. We focus on explicit processes that allow the dependence of the soft factors on the hard particles' momenta and total angular momenta to be displayed clearly. We argue that the dressings remove the infrared divergences in hard amplitudes order by order in perturbation theory, effectively regulating the contributions from virtual soft photons at the scale $E_d$. Essentially, the Faddeev-Kulish hard amplitudes become equivalent to the infrared-finite part of the corresponding Fock-basis amplitudes. Finally, tree-level soft-photon emission is found to be suppressed once the dressings are extended to subleading order in the soft-momentum expansion, as prescribed in recent work by Choi and Akhoury.
title Subleading soft dressings for QED scattering states
topic High Energy Physics - Theory
url https://arxiv.org/abs/2603.18587