1S-2S energy shift in muonic hydrogen

We calculate corrections of orders α4, α5, α6 to the (1S – 2S) fine structure interval in muonic hydrogen (μp), muonic tritium (μt) and muonic helium ion $$((\mu _2^3He) + )$$. They are determined by the effects of vacuum polarization, nuclear structure and recoil and relativistic corrections. The nuclear structure effects are taken into account in terms of the charge radii of the nuclei in one-photon interaction and in terms of electromagnetic form-factors in the case of two-photon interaction. The obtained results for the (1S – 2S) splitting can be used for a comparison with future experimental data.

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Precision physics of muonic ions of lithium, beryllium and boron

International Journal of Modern Physics A ◽

10.1142/s0217751x21500226 ◽

2021 ◽

Vol 36 (04) ◽

pp. 2150022

Author(s):

A. E. Dorokhov ◽

R. N. Faustov ◽

A. P. Martynenko ◽

F. A. Martynenko

Keyword(s):

Nuclear Structure ◽

Quantum Electrodynamics ◽

Accurate Determination ◽

Form Factors ◽

Relativistic Effects ◽

Atomic Spectroscopy ◽

Light Nuclei ◽

Nuclear Charge Radius ◽

Photon Interaction ◽

Two Photon

The problem of determining the main parameters of light nuclei from precision atomic spectroscopy is considered. Within the framework of the quasipotential method in quantum electrodynamics, the energy interval [Formula: see text] in muonic ions of lithium, beryllium and boron is calculated. Corrections of orders [Formula: see text], which are determined by relativistic effects, effects of vacuum polarization, nuclear structure and recoil, as well as combined corrections, including the above, are taken into account. Nuclear structure effects are expressed in terms of the nuclear charge radius in the case of one-photon interaction and the electromagnetic form factors of nuclei in the case of two-photon interaction. The obtained numerical values for the [Formula: see text] interval can be used for comparison with future experimental data and for a more accurate determination of the nucleus charge radii.

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Two-photon exchange effect on deuteron electromagnetic form factors

Physics Letters B ◽

10.1016/j.physletb.2009.04.054 ◽

2009 ◽

Vol 675 (5) ◽

pp. 426-432 ◽

Cited By ~ 14

Author(s):

Yu Bing Dong ◽

D.Y. Chen

Keyword(s):

Form Factors ◽

Electromagnetic Form Factors ◽

Exchange Effect ◽

Photon Exchange ◽

Two Photon

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Nucleon Axial and Electromagnetic Form Factors

EPJ Web of Conferences ◽

10.1051/epjconf/201817506033 ◽

2018 ◽

Vol 175 ◽

pp. 06033 ◽

Cited By ~ 9

Author(s):

Yong-Chull Jang ◽

Tanmoy Bhattacharya ◽

Rajan Gupta ◽

Huey-Wen Lin ◽

Boram Yoon

Keyword(s):

Excited States ◽

Finite Volume ◽

Magnetic Moment ◽

Lattice Spacing ◽

Form Factors ◽

Electromagnetic Form Factors ◽

Charge Radii ◽

Model Independent ◽

Magnetic Form Factors

We present results for the isovector axial, induced pseudoscalar, electric, and magnetic form factors of the nucleon. The calculations were done using 2 + 1 + 1-flavor HISQ ensembles generated by the MILC collaboration with lattice spacings a ≈ 0.12, 0.09, 0.06 fm and pion masses Mπ ≈ 310, 220, 130 MeV. Excited-states contamination is controlled by using four-state fits to two-point correlators and by comparing two-versus three-states in three-point correlators. The Q2 behavior is analyzed using the model independent z-expansion and the dipole ansatz. Final results for the charge radii and magnetic moment are obtained using a simultaneous fit in Mπ, lattice spacing a and finite volume.

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