Quantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy levels have been expressed in terms of a semi-analytic expansion in powers of Zα and ln[(Zα)-2], where Z is the nuclear charge number and α is the fine-structure constant. For many QED effects, numerical data are available in the domain of high Z where the Zα expansion fails. In this Letter, we demonstrate that it is possible, within certain limits of accuracy, to extrapolate the Zα-expansion from the low-Z to the high-Z domain. We also review two-loop self-energy effects and provide an estimate for the problematic nonlogarithmic coefficient B60
The radiative self-energy correction to the bound-electron g factor of 2P1/2 and 2P3/2 states in one...
We calculate the two-loop Bethe logarithm correction to atomic energy levels in hydrogenlike systems...
The calculation of two-electron QED energy shifts in helium-like ions is discussed in order to corre...
AbstractQuantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy le...
Results of a calculation valid to all orders in the nuclear-strength parameter Z\alpha are presented...
Self-energy corrections involving logarithms of the parameter Z α can often be derived within a simp...
We calculate the one- and two-loop corrections of order α(Zα)6 and α2(Zα)6, respectively, to the Lam...
We present an improved calculation of higher-order corrections to the one-loop self-energy of 2P sta...
The fine-structure interval of P states in hydrogenlike systems can be determined theoretically with...
A first testing ground for QED in the combined presence of a strong Coulomb field and a strong magne...
A part of the two-loop self-energy correction, the so-called P term, is evaluated numerically for th...
We derive an analytical expression for the contribution of the order $m\alpha^2 (Z\alpha)^6$ to the ...
Two-loop self-energy corrections to the bound-electron $g$ factor are investigated theoretically to ...
General expressions for quantum electrodynamic corrections to the one-loop self-energy [of order α(Z...
The self-energy corrections to the hyperfine splitting is evaluated for higher excited states in hyd...
The radiative self-energy correction to the bound-electron g factor of 2P1/2 and 2P3/2 states in one...
We calculate the two-loop Bethe logarithm correction to atomic energy levels in hydrogenlike systems...
The calculation of two-electron QED energy shifts in helium-like ions is discussed in order to corre...
AbstractQuantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy le...
Results of a calculation valid to all orders in the nuclear-strength parameter Z\alpha are presented...
Self-energy corrections involving logarithms of the parameter Z α can often be derived within a simp...
We calculate the one- and two-loop corrections of order α(Zα)6 and α2(Zα)6, respectively, to the Lam...
We present an improved calculation of higher-order corrections to the one-loop self-energy of 2P sta...
The fine-structure interval of P states in hydrogenlike systems can be determined theoretically with...
A first testing ground for QED in the combined presence of a strong Coulomb field and a strong magne...
A part of the two-loop self-energy correction, the so-called P term, is evaluated numerically for th...
We derive an analytical expression for the contribution of the order $m\alpha^2 (Z\alpha)^6$ to the ...
Two-loop self-energy corrections to the bound-electron $g$ factor are investigated theoretically to ...
General expressions for quantum electrodynamic corrections to the one-loop self-energy [of order α(Z...
The self-energy corrections to the hyperfine splitting is evaluated for higher excited states in hyd...
The radiative self-energy correction to the bound-electron g factor of 2P1/2 and 2P3/2 states in one...
We calculate the two-loop Bethe logarithm correction to atomic energy levels in hydrogenlike systems...
The calculation of two-electron QED energy shifts in helium-like ions is discussed in order to corre...
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