English

Can a protophobic vector boson explain the ATOMKI anomaly?

High Energy Physics - Phenomenology 2021-01-28 v2 High Energy Physics - Experiment Nuclear Experiment Nuclear Theory

Abstract

In 2016, the ATOMKI collaboration announced [PRL {\bf 116}, 042501 (2016)] observing an unexpected enhancement of the e+ee^+-e^- pair production signal in one of the 8^8Be nuclear transitions induced by an incident proton beam on a 7^7Li target. Many beyond-standard-model physics explanations have subsequently been proposed. One popular theory is that the anomaly is caused by the creation of a protophobic vector boson (XX) with a mass around 17 MeV [e.g., PRL\ {\bf 117}, 071803 (2016)] in the nuclear transition. We study this hypothesis by deriving an isospin relation between photon and XX couplings to nucleons. This allows us to find simple relations between protophobic XX-production cross sections and those for measured photon production. The net result is that XX production is dominated by direct transitions induced by E1XE1^X and L1XL1^X (transverse and longitudinal electric dipoles) and C1XC1^X (charge dipole) without going through any nuclear resonance (i.e. Bremsstrahlung radiation) with a smooth energy dependence that occurs for all proton beam energies above threshold. This contradicts the experimental observations and invalidates the protophobic vector boson explanation.

Cite

@article{arxiv.2008.11288,
  title  = {Can a protophobic vector boson explain the ATOMKI anomaly?},
  author = {Xilin Zhang and Gerald A. Miller},
  journal= {arXiv preprint arXiv:2008.11288},
  year   = {2021}
}

Comments

8 pages, 4 figures, 1 table. Version close to the published: detailed discussions on multipoles and experimental signal (with a new figure) are included

R2 v1 2026-06-23T18:06:13.108Z