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Bibliographic Details
Main Author:	Reis, Immo C.
Format:	Preprint
Published:	2025
Subjects:	Nuclear Theory
Online Access:	https://arxiv.org/abs/2503.11708
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_version_	1866916653345800192
author	Reis, Immo C.
author_facet	Reis, Immo C.
contents	Radiative corrections are playing an increasingly significant role in low-energy nuclear physics. We investigate the influence of photons as explicit degrees of freedom within nuclear EFT on the deuteron binding energy, charge form factor, and the radiative capture process $ np \to dγ$ using the velocity renormalization group. In each case, evolving the subtraction velocity to a characteristic nucleon velocity in the bound state induces percent-level modifications in the relevant observables. These findings indicate that electromagnetic corrections represent a non-negligible source of uncertainty in current few-body calculations.
format	Preprint
id	arxiv_https___arxiv_org_abs_2503_11708
institution	arXiv
publishDate	2025
record_format	arxiv
spellingShingle	Radiative corrections for the two-nucleon interaction in effective field theory Reis, Immo C. Nuclear Theory Radiative corrections are playing an increasingly significant role in low-energy nuclear physics. We investigate the influence of photons as explicit degrees of freedom within nuclear EFT on the deuteron binding energy, charge form factor, and the radiative capture process $ np \to dγ$ using the velocity renormalization group. In each case, evolving the subtraction velocity to a characteristic nucleon velocity in the bound state induces percent-level modifications in the relevant observables. These findings indicate that electromagnetic corrections represent a non-negligible source of uncertainty in current few-body calculations.
title	Radiative corrections for the two-nucleon interaction in effective field theory
topic	Nuclear Theory
url	https://arxiv.org/abs/2503.11708

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