<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mn>1</mml:mn><mml:mi mathvariant="italic">s</mml:mi></mml:math>Lamb Shift in Hydrogenlike Uranium Measured on Cooled, Decelerated Ion Beams

Stöhlker, Th.; Mokler, P. H.; Bosch, F.; Dunford, R. W.; Franzke, F.; Klepper, O.; Kozhuharov, C.; Ludziejewski, T.; Nolden, F.; Reich, H.; Rymuza, P.; Stachura, Z.; Steck, M.; Swiat, P.; Warczak, A.

doi:10.1103/physrevlett.85.3109

Cited by 105 publications

(37 citation statements)

References 15 publications

(12 reference statements)

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“…For the 1s ground level in U 91+ , the calculated value is 1.55 eV. Measurements sensitive to the 1s QED term of hydrogenlike uranium U 91+ , the heaviest naturally occurring element, have achieved an accuracy of 13 eV [2]. This corresponds to a fractional accuracy of 5% when compared to the total 1s QED contribution of about 270 eV, but it is insensitive to two-loop corrections.…”

mentioning

confidence: 75%

Measurement of the Two-Loop Lamb Shift in LithiumlikeU89+

2005

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confidence: 75%

Measurement of the Two-Loop Lamb Shift in LithiumlikeU89+

2005

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“…The uncertainty of the Dirac binding energy results from the uncertainty of the Rydberg constant [146]. As can be deduced from the table, the present status of the experimental precision on the ground-state Lamb shift in hydrogenlike uranium [147][148][149] provides a test of QED in first order in α on the level of about 5%.…”

Section: Hydrogenlike Ionsmentioning

confidence: 98%

“…Let us consider the function G(E ′ , E) defined as [39,112] 198.81(38) First-order SE [123] 355.05 First-order VP [119] −88.60 Second-order QED ± 1.5 Nuclear recoil [141] 0.46 Nuclear polarization [144,145] −0.20(10) Lamb shift theory 465.52(39) ± 1.5 Lamb shift experiment [149] 468 (13) [39] 1881.50(7) Experiment [152] 1876 (14) TABLE III. The 2p 1/2 − 2s transition energy in 238 U 89+ , in eV.…”

Section: Appendix E: Double Spectral Representation For the Two-time mentioning

confidence: 99%

Two-time Green's function method in quantum electrodynamics of high-Z few-electron atoms

2002

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The two-time Green function method in quantum electrodynamics of high-Z few-electron atoms is described in detail. This method provides a simple procedure for deriving formulas for the energy shift of a single level and for the energies and wave functions of degenerate and quasi-degenerate states. It also allows one to derive formulas for the transition and scattering amplitudes. Application of the method to resonance scattering processes yields a systematic theory for the spectral line shape. The practical ability of the method is demonstrated by deriving formulas for the QED and interelectronic-interaction corrections to energy levels and transition and scattering amplitudes in one-, two-, and three-electron atoms. Numerical calculations of the Lamb shift, the hyperfine splitting, the bound-electron g factor, and the radiative recombination cross section in heavy ions are also reviewed. PACS number(s): 12.20.Ds, 31.30. Jv

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“…While the simplicity of the hydrogen isoelectronic sequence makes it ideal for theoretical investigations, the achieved experimental accuracy is by far better in few-electron systems. In particular, the Lamb shift in H-like uranium is presently known at the 3% level [1], whereas the 2p 3/2 -2s splitting in Li-like bismuth was measured to be E 2p 3/2 − E 2s = 2788.139 (9) eV ,…”

Section: Introductionmentioning

confidence: 99%

Screened Self-energy Correction to the 2p[sub 3∕2]–2s Transition Energy in Li-Like Ions

Yerokhin

2005

Opt. Spectrosc.

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We present an ab initio calculation of the screened self-energy correction for (1s) 2 2p 3/2 and (1s) 2 2s states of Li-like ions with nuclear charge numbers in the range Z = 12-100. The evaluation is carried out to all orders in the nuclear-strength parameter Zα. This investigation concludes our calculations of all two-electron QED corrections for the 2p 3/2 -2s transition energy in Li-like ions and thus considerably improves theoretical predictions for this transition for high-Z ions.

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1sLamb Shift in Hydrogenlike Uranium Measured on Cooled, Decelerated Ion Beams

Cited by 105 publications

References 15 publications

Measurement of the Two-Loop Lamb Shift in LithiumlikeU89+

Measurement of the Two-Loop Lamb Shift in LithiumlikeU89+

Two-time Green's function method in quantum electrodynamics of high-Z few-electron atoms

Screened Self-energy Correction to the 2p[sub 3∕2]–2s Transition Energy in Li-Like Ions

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