English

Testing fundamental interactions on the helium atom

Atomic Physics 2017-06-28 v4 High Energy Physics - Phenomenology

Abstract

We critically examine the current status of theoretical calculations of the energies, the fine structure, and the isotope shift of the lowest-lying states of helium, searching for unresolved discrepancies with experiments. Calculations are performed within the quantum electrodynamics expansion in powers of the fine structure constant α\alpha and the electron-to-nucleus mass ratio m/Mm/M. For energies, theoretical results are complete through orders α6m\alpha^6m and α6m2/M\alpha^6m^2/M, with the resulting accuracy ranging from 0.50.5 to 22~MHz for the n=2n=2 states. The fine-structure splitting of the 23P2^3P state is predicted with a much better accuracy, 1.7~kHz, as a consequence of a calculation of the next-order α7m\alpha^7m effect. An excellent agreement of the theoretical predictions with the recent measurements of the fine structure provides one of the best tests of the bound-state QED in few-electron systems and determines the fine-structure constant α\alpha with an accuracy of 31~ppb. The isotope shift between 3^3He and 4^4He is treated theoretically with a sub-kHz accuracy, which allows for a high-precision determination of the differences of the nuclear charge radii δr2\delta r^2. Several such determinations, however, yield results that are in a 4σ\sigma disagreement with each other, what remains unexplained. Apart from this, we find no significant discrepancies between theory and experiment for the helium atom. In the future, a calculation of the next-order α7m\alpha^7m effect for energy levels will enable determinations of the nuclear charge radii from atomic transition frequencies with an accuracy better than 1\%. Combined with the complementary determinations from muonic atoms, this will provide a sensitive test of universality in electromagnetic interactions of leptons and contribute to the solution of the proton charge radius puzzle.

Keywords

Cite

@article{arxiv.1704.06902,
  title  = {Testing fundamental interactions on the helium atom},
  author = {Krzysztof Pachucki and Vojtěch Patkóš and Vladimir Yerokhin},
  journal= {arXiv preprint arXiv:1704.06902},
  year   = {2017}
}

Comments

9 pages, 1 figure

R2 v1 2026-06-22T19:24:52.447Z