Fine Structure, Hyperfine Structure and Lamb Shift Measurements by the Beam-foil Technique

AbstractPrecision spectroscopy of the Muonium Lamb shift and fine structure requires a robust source of 2S Muonium. To date, the beam-foil technique is the only demonstrated method for creating such a beam in vacuum. Previous experiments using this technique were statistics limited, and new measurements would benefit tremendously from the efficient 2S production at a low energy muon ($$<20$$ < 20 keV) facility. Such a source of abundant low energy $${\mu }^{+}$$ μ + has only become available in recent years, e.g. at the Low-Energy Muon beamline at the Paul Scherrer Institute. Using this source, we report on the successful creation of an intense, directed beam of metastable Muonium. We find that even though the theoretical Muonium fraction is maximal in the low energy range of 2–5 keV, scattering by the foil and transport characteristics of the beamline favor slightly higher $${\mu }^{+}$$ μ + energies of 7–10 keV. We estimate that an event detection rate of a few events per second for a future Lamb shift measurement is feasible, enabling an increase in precision by two orders of magnitude over previous determinations.

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Morphology and Topology of Coherent Scattering Regions of the Fe-Mn-C Steel Fine Structure

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1085.84 ◽

2015 ◽

Vol 1085 ◽

pp. 84-90

Author(s):

Anna P. Zykova ◽

Irina Kurzina ◽

Mihail Yu. Novomejsky ◽

Yuriy D. Novomejsky

Keyword(s):

Fine Structure ◽

Hyperfine Structure ◽

Coherent Scattering ◽

Technological Properties ◽

Material Microstructure ◽

And Topology ◽

Interaction Of Components ◽

Physical And Chemical ◽

Comprehensive Study

The interaction of components in modifying mixtures with the elements of Fe-Mn-С alloys hyperfine structure is investigated. Comprehensive study of the modified material microstructure is conducted. The substructure of Fe-Mn-С alloys is shown to undergo significant changes. The produced castings are characterized with enhanced physical-and-chemical and technological properties

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Fluorine mean-life measurements below 1000 Å using the beam–foil technique

Canadian Journal of Physics ◽

10.1139/p76-120 ◽

1976 ◽

Vol 54 (10) ◽

pp. 1014-1021 ◽

Cited By ~ 15

Author(s):

E. H. Pinnington ◽

D. J. G. Irwin ◽

A. E. Livingston ◽

J. A. Kernahan

Keyword(s):

Satellite Data ◽

Wavelength Region ◽

Wave Functions ◽

Interstellar Clouds ◽

Beam Foil ◽

Foil Technique ◽

Good Agreement

We have used the beam–foil technique to measure mean lives for 16 transitions in F I–F IV in the wavelength region 400 Å–1000 Å. Good agreement is found with the results of recent calculations, particularly those employing correlated wave functions. The f-value trends for 5 isoelectronic sequences are presented in detail (2p5 2P0–2p43s2 D and 2p5 2P0–2p43s 2P in F I; 2p4 3P–2p33s 3D0 in F II; 2p3 2D0–2s2p4 2D and 2p3 4S0–2s2p4 4P in F III). Our f value for the 955 Å multiplet in F I is also used in conjunction with some new satellite data to show that the fluorine abundance is apparently depleted in interstellar clouds by a factor of at least 3 below its solar value.

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