Add to ORKGThe two-loop self-energy correction is evaluated to all orders in Z\alpha for the ground-state Lamb shift of H-like ions with Z >= 10, where Z is the nuclear charge number and \alpha is the fine structure constant. The results obtained are compared with the analytical values for the Z\alpha-expansion coefficients. An extrapolation of the all-order numerical results to Z=1 is presented and implications of our calculation for the hydrogen Lamb shift are discussed
Final version, December 30, 2003A detailed description of the numerical procedure is presented for t...
We calculate the one- and two-loop corrections of order (Z)6 and 2(Z)6, respectively, to the Lamb sh...
We present an improved calculation of higher-order corrections to the one-loop self-energy of 2P sta...
The two-loop self-energy correction is evaluated to all orders in Z\\alpha for the ground-state Lamb...
We present an evaluation of the complete gauge-invariant set of the two-loop self-energy diagrams c...
A part of the two-loop self-energy correction, the so-called P term, is evaluated numerically for th...
A reliable and precise theoretical understanding of quantum electrodynamic effects in atoms is of cr...
General expressions for quantum electrodynamic corrections to the one-loop self-energy [of order alp...
Contribution of order \alpha^2 (Z \alpha)^6 \ln^3(Z \alpha)^{-2} to the ground-state Lamb shift in h...
Results of a calculation valid to all orders in the nuclear-strength parameter Z\alpha are presented...
The paper reports a technique of evaluation of Feynman diagrams in the mixed coordinate-momentum rep...
A calculation valid to all orders in the nuclear-strength parameter is presented for the two-loop La...
Quantum electrodynamics has been the first theory to emerge from the ideas of regularization and ren...
Quantum electrodynamics has been the first theory to emerge from the ideas of regularization and ren...
This paper reports the status and progress regarding the evaluation of higher order binding correcti...
Final version, December 30, 2003A detailed description of the numerical procedure is presented for t...
We calculate the one- and two-loop corrections of order (Z)6 and 2(Z)6, respectively, to the Lamb sh...
We present an improved calculation of higher-order corrections to the one-loop self-energy of 2P sta...
The two-loop self-energy correction is evaluated to all orders in Z\\alpha for the ground-state Lamb...
We present an evaluation of the complete gauge-invariant set of the two-loop self-energy diagrams c...
A part of the two-loop self-energy correction, the so-called P term, is evaluated numerically for th...
A reliable and precise theoretical understanding of quantum electrodynamic effects in atoms is of cr...
General expressions for quantum electrodynamic corrections to the one-loop self-energy [of order alp...
Contribution of order \alpha^2 (Z \alpha)^6 \ln^3(Z \alpha)^{-2} to the ground-state Lamb shift in h...
Results of a calculation valid to all orders in the nuclear-strength parameter Z\alpha are presented...
The paper reports a technique of evaluation of Feynman diagrams in the mixed coordinate-momentum rep...
A calculation valid to all orders in the nuclear-strength parameter is presented for the two-loop La...
Quantum electrodynamics has been the first theory to emerge from the ideas of regularization and ren...
Quantum electrodynamics has been the first theory to emerge from the ideas of regularization and ren...
This paper reports the status and progress regarding the evaluation of higher order binding correcti...
Final version, December 30, 2003A detailed description of the numerical procedure is presented for t...
We calculate the one- and two-loop corrections of order (Z)6 and 2(Z)6, respectively, to the Lamb sh...
We present an improved calculation of higher-order corrections to the one-loop self-energy of 2P sta...