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Main Authors: Selivanov, Y. V., Mironov, A. A., Alexeenko, A. I., Fedotov, A. M.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.12479
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author Selivanov, Y. V.
Mironov, A. A.
Alexeenko, A. I.
Fedotov, A. M.
author_facet Selivanov, Y. V.
Mironov, A. A.
Alexeenko, A. I.
Fedotov, A. M.
contents Following Veltman's approach, we formulate and discuss a general cutting equation for QED in a plane-wave background. We apply the corresponding cutting rules to justify the connection between the two-loop radiative corrections to elastic electron scattering and the rate of the trident process in a constant crossed field. As a byproduct, we compare the previously published results for the trident process in a constant crossed field and present a complete analytical expression for direct and exchange contributions to its rate, which is resolved in the spin of the initial electron. Our findings establish that although total rates can be reliably extracted from higher-loop by applying the cutting rules, reconstruction of differential rates requires additional care. The cutting rules apply to any loop order and may be extended to nonperturbative regimes.
format Preprint
id arxiv_https___arxiv_org_abs_2605_12479
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Cutting rules in strong field QED with application to trident pair production
Selivanov, Y. V.
Mironov, A. A.
Alexeenko, A. I.
Fedotov, A. M.
High Energy Physics - Theory
Following Veltman's approach, we formulate and discuss a general cutting equation for QED in a plane-wave background. We apply the corresponding cutting rules to justify the connection between the two-loop radiative corrections to elastic electron scattering and the rate of the trident process in a constant crossed field. As a byproduct, we compare the previously published results for the trident process in a constant crossed field and present a complete analytical expression for direct and exchange contributions to its rate, which is resolved in the spin of the initial electron. Our findings establish that although total rates can be reliably extracted from higher-loop by applying the cutting rules, reconstruction of differential rates requires additional care. The cutting rules apply to any loop order and may be extended to nonperturbative regimes.
title Cutting rules in strong field QED with application to trident pair production
topic High Energy Physics - Theory
url https://arxiv.org/abs/2605.12479