Abstract
The energy shift of $K$ electrons in heavy atoms due to the self-energy correction has been calculated. This process is treated to all orders in $Z\ensuremath{\alpha}$, where $Z$ denotes the nuclear charge. For the superheavy system $Z=170$, where the $K$-shell binding energy reaches the pair-production threshold (${{E}_{1s}}^{b}\ensuremath{\sim}2m{c}^{2}$), a shift of +11.0 keV is found. This shift is almost cancelled by the vacuum polarization, leaving a negligible effect for all quantum-electrodynamical corrections of order $\ensuremath{\alpha}$ but all orders of $Z\ensuremath{\alpha}$.
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