2001
DOI: 10.1063/1.1354352
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Precise physics of simple atoms

Abstract: Abstract. We give a review of experimental and theoretical results on the precision study of hydrogen-like atoms with low value of the nuclear charge Z.The simplicity of "simple" atoms has been for a while a challenge to precision theory and experiment. Are the hydrogen-like atomic systems simple enough to be calculated with an accuracy, appropriate to compete with the best experimental results? That is a question, that theorists have tried to answer. The simplest atoms are different two-body bound systems wit… Show more

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Cited by 7 publications
(11 citation statements)
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“…Our conservative estimation of the theoretical uncertainty in Fig. 9 is related to [36,60] R p (conservative) = 0.88(3) fm .…”
Section: Lamb Shift and Effects Of The Proton Charge Distributionmentioning
confidence: 85%
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“…Our conservative estimation of the theoretical uncertainty in Fig. 9 is related to [36,60] R p (conservative) = 0.88(3) fm .…”
Section: Lamb Shift and Effects Of The Proton Charge Distributionmentioning
confidence: 85%
“…The bound state problem is complicated by itself even in the case of classical mechanics. The hydrogen atom is the simplest atomic system; however, a theoretical result for the energy levels is expressed as a complicated function (often a perturbation expansion) of a number of small parameters [60] (see review [16] for a collection of theoretical contributions):…”
Section: The Lamb Shift In the Hydrogen Atommentioning
confidence: 99%
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“…[34] (see also Refs. [37,32,18]) and we follow consideration there. The hadronic contribution is taken from Ref.…”
Section: Finally One Can Obtainmentioning
confidence: 99%
“…It faces a lack of pure QED description of the nucleon structure, hadronic vacuum polarization and other hadronic effects. Such effects are unavoidable while calculating the spectrum of hydrogen, muonium and most of other simple atoms [1]. For some applications the weak interaction is also involved into calculations, but in such a case it can often be done ab initio, while strong interaction effects require model-dependent evaluations, experimental data and phenomenological approaches.…”
Section: Introductionmentioning
confidence: 99%