Measurement of the neutron charge radius and the role of its constituents

H. Atac, M. Constantinou, Z.-E. Meziani, M. Paolone and N. Sparveris ()
Additional contact information
H. Atac: Temple University
M. Constantinou: Temple University
Z.-E. Meziani: Temple University
M. Paolone: New Mexico State University
N. Sparveris: Temple University

Nature Communications, 2021, vol. 12, issue 1, 1-7

Abstract: Abstract The neutron is a cornerstone in our depiction of the visible universe. Despite the neutron zero-net electric charge, the asymmetric distribution of the positively- (up) and negatively-charged (down) quarks, a result of the complex quark-gluon dynamics, lead to a negative value for its squared charge radius, $$\langle {r}_{{\rm{n}}}^{2}\rangle$$ ⟨ r n 2 ⟩ . The precise measurement of the neutron’s charge radius thus emerges as an essential part of unraveling its structure. Here we report on a $$\langle {r}_{{\rm{n}}}^{2}\rangle$$ ⟨ r n 2 ⟩ measurement, based on the extraction of the neutron electric form factor, $${G}_{{\rm{E}}}^{{\rm{n}}}$$ G E n , at low four-momentum transfer squared (Q2) by exploiting the long known connection between the N → Δ quadrupole transitions and the neutron electric form factor. Our result, $$\langle {r}_{{\rm{n}}}^{2}\rangle =-0.110\pm 0.008\,({{\rm{fm}}}^{2})$$ ⟨ r n 2 ⟩ = − 0.110 ± 0.008 ( fm 2 ) , addresses long standing unresolved discrepancies in the $$\langle {r}_{{\rm{n}}}^{2}\rangle$$ ⟨ r n 2 ⟩ determination. The dynamics of the strong nuclear force can be viewed through the precise picture of the neutron’s constituent distributions that result into the non-zero $$\langle {r}_{{\rm{n}}}^{2}\rangle$$ ⟨ r n 2 ⟩ value.

Date: 2021
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DOI: 10.1038/s41467-021-22028-z

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