English

Measuring $^{241}$Am Dipole Response

Nuclear Experiment 2025-05-05 v1

Abstract

Americium (241^{241}Am) with an unpaired proton in the F5/2_{5/2} state exhibits a significant magnetic dipole moment. The dipole can be experimentally measured with application of even modest external magnetic fields, as little as 1G, as a shifting in the energy spectrum of emitted gammas during the process of decaying to 237^{237}Np ground state. This paper looks at the shifting in the output energy peak of gammas from the decay of excited 237^{237}Np when two configurations of an external magnetic field are applied. The peak shifting, which does not appear in the background data dominated by 238^{238}U decays, differs for the two dominant gammas released at 26.3 keV and 59.5 keV. For the 59.5 keV peak: shifting is ~ 32% of 1-Energy Bin or about 0.5 keV. While for the 26.3 keV peak: shifting is ~ 15% of 1-Energy Bin or about 0.24 keV. Interestingly enough, there appears to be a shifting for the case where the field remains in a direction horizontal to the optical bench and the light is simply blocked or unblocked from entering the field, referred to as the light (sP) or dark (sD) modes.

Keywords

Cite

@article{arxiv.2505.00754,
  title  = {Measuring $^{241}$Am Dipole Response},
  author = {C. Scarlett and E. Fischbach and B. Freeman and J. J. Coy and P. Edwards and D. Osborne and J. Edwards and L. Mwibanda and A. Alsayegh},
  journal= {arXiv preprint arXiv:2505.00754},
  year   = {2025}
}
R2 v1 2026-06-28T23:18:24.652Z