Constraining the axial-vector X17 interpretation with ${}^{12}$C data
Abstract
Recent findings of an unexpected, narrow resonance in the decay spectra of excited states of Be, He and C by the ATOMKI collaboration have received considerable experimental and theoretical attention, whereby a new, 17-MeV vector-like or axial-vector-like boson termed X17 was conjectured as an explanation of the anomaly. Further analysis of all existing constraints disfavors a vector X17 scenario. For a similar analysis of the axial-vector scenario, a calculation of the reduced matrix element of a spin-dipole operator between the excited nuclear state C(17.23) and the carbon ground state is required. In the present work, we compute the aforementioned reduced matrix element under the assumption that the state C(17.23) is well represented by the particle-hole shell-model excitation of the ground state, as supported by experimental data. Within such a framework, our results indicate that, like the vector scenario, the axial-vector interpretation of X17 shows strong tensions with the other existing constraints on the nucleon coupling of a conjectured X17.
Keywords
Cite
@article{arxiv.2406.08143,
title = {Constraining the axial-vector X17 interpretation with ${}^{12}$C data},
author = {Cornelis J. G. Mommers and Marc Vanderhaeghen},
journal= {arXiv preprint arXiv:2406.08143},
year = {2024}
}
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