Add to ORKGState-dependent quantum electrodynamic corrections are evaluated for the hyperfine splitting of nS states for arbitrary principal quantum number n. The calculations comprise both the self-energy and the vacuum-polarization correction of order alpha(Z alpha)^2 E_F and the recoil correction of order (Z alpha)^2 (m/M) E_F. Higher-order corrections are summarized and partly reevaluated as well. Accurate predictions for hydrogen hyperfine splitting intervals of nS states with n=2,...,8 are presented. The results obtained are important due to steady progress in hydrogen spectroscopy for transitions involving highly excited S states
A high-precision numerical calculation is reported for the self-energy correction to the hyperfine s...
AbstractQED theory of the hyperfine splitting of the 1s and 2s state in hydrogen isotopes and helium...
We consider the proton structure corrections to hydrogen ground-state hyperfine structure, focusing ...
State-dependent quantum electrodynamic corrections are evaluated for the hyperfine splitting of nS s...
State-dependent quantum electrodynamic corrections are evaluated for the hyperfine splitting of nS s...
The self-energy corrections to the hyperfine splitting is evaluated for higher excited states in hyd...
A calculation of the vacuum-polarization contribution to the hyperfine splitting for hydrogenlike at...
QED theory of the hyperfine splitting of the $1s$ and $2s$ state in hydrogen isotopes and helium-3 i...
We consider the most accurate tests of bound state QED theory of the hyperfine splitting in two-body...
We consider the most accurate tests of bound state QED, precision theory of simple atoms, related to...
A first testing ground for QED in the combined presence of a strong Coulomb field and a strong magne...
We consider hyperfine splitting of is and, in part, of 2s levels in light hydrogen-like atoms: hydro...
Techniques to calculate one-loop radiative corrections to hyperfine splitting including binding corr...
AbstractOn the basis of quasipotential method in quantum electrodynamics we calculate nuclear finite...
We present results on the self-energy correction to the energy levels of hydrogen and hydrogenlike i...
A high-precision numerical calculation is reported for the self-energy correction to the hyperfine s...
AbstractQED theory of the hyperfine splitting of the 1s and 2s state in hydrogen isotopes and helium...
We consider the proton structure corrections to hydrogen ground-state hyperfine structure, focusing ...
State-dependent quantum electrodynamic corrections are evaluated for the hyperfine splitting of nS s...
State-dependent quantum electrodynamic corrections are evaluated for the hyperfine splitting of nS s...
The self-energy corrections to the hyperfine splitting is evaluated for higher excited states in hyd...
A calculation of the vacuum-polarization contribution to the hyperfine splitting for hydrogenlike at...
QED theory of the hyperfine splitting of the $1s$ and $2s$ state in hydrogen isotopes and helium-3 i...
We consider the most accurate tests of bound state QED theory of the hyperfine splitting in two-body...
We consider the most accurate tests of bound state QED, precision theory of simple atoms, related to...
A first testing ground for QED in the combined presence of a strong Coulomb field and a strong magne...
We consider hyperfine splitting of is and, in part, of 2s levels in light hydrogen-like atoms: hydro...
Techniques to calculate one-loop radiative corrections to hyperfine splitting including binding corr...
AbstractOn the basis of quasipotential method in quantum electrodynamics we calculate nuclear finite...
We present results on the self-energy correction to the energy levels of hydrogen and hydrogenlike i...
A high-precision numerical calculation is reported for the self-energy correction to the hyperfine s...
AbstractQED theory of the hyperfine splitting of the 1s and 2s state in hydrogen isotopes and helium...
We consider the proton structure corrections to hydrogen ground-state hyperfine structure, focusing ...