2016
DOI: 10.1051/epjconf/201611301006
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Experiments towards resolving the proton charge radius puzzle

Abstract: Abstract.We review the status of the proton charge radius puzzle. Emphasis is given to the various experiments initiated to resolve the conflict between the muonic hydrogen results and the results from scattering and regular hydrogen spectroscopy. The proton charge radius puzzleThe historical route to the proton charge radius (r p ) is from elastic electron-proton scattering. In a completely complementary fashion, it has been obtained also from "high-precision" laser spectroscopy of hydrogen (H). Since a few y… Show more

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Cited by 25 publications
(29 citation statements)
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“…For example, [8] measures isotope shifts in the radii of Ca isotopes to better than 1% accuracy. New muonic atom measurements [9] that determine the charge radii of light nuclei are now at about the 1% level. Furthermore, a current Jefferson Laboratory experiment [10,11] aims to measure the the difference between the charge radii of 3 He and 3 H to a precision of ±0.02 fm.…”
mentioning
confidence: 99%
“…For example, [8] measures isotope shifts in the radii of Ca isotopes to better than 1% accuracy. New muonic atom measurements [9] that determine the charge radii of light nuclei are now at about the 1% level. Furthermore, a current Jefferson Laboratory experiment [10,11] aims to measure the the difference between the charge radii of 3 He and 3 H to a precision of ±0.02 fm.…”
mentioning
confidence: 99%
“…Each laser pulse then sees a fresh gas sample from the jet, and therefore a constant phase shift in the HHG process. Such a measurement could provide important new data to the proton radius puzzle, as the transition can then be compared to spectroscopy of muonic He + ions [13]. …”
Section: Resultsmentioning
confidence: 99%
“…Both can be obtained from spectroscopy of atomic hydrogen, assuming that QED is sufficiently precise. However, when the CREMA collaboration determined the proton charge radius from spectroscopy in muonic hydrogen (consisting of a proton and a muon), it leads to a considerable (7σ) mismatch with the value extracted from normal (electronic) hydrogen [11][12][13]. This mismatch, known as the proton radius puzzle, remains to be explained and requires more spectroscopic measurements, e.g., in systems other than (muonic) hydrogen.…”
mentioning
confidence: 99%
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“…For an overview of other potential regular hydrogen measurements see Ref. [79]. A range of new measurements with hydrogen-like He + ions [80][81][82], molecules and molecular ions [83][84][85][86][87], and circular Rydberg states [88,89] are also anticipated.…”
Section: New Regular Hydrogen Measurementsmentioning
confidence: 98%