Finite nuclear size and Lamb shift of p-wave atomic states
Abstract
We consider corrections to the Lamb shift of p-wave atomic states due to the finite nuclear size (FNS). In other words, these are radiative corrections to the atomic isotop shift related to FNS. It is shown that the structure of the corrections is qualitatively different from that for s-wave states. The perturbation theory expansion for the relative correction for a p1/2-state starts from α(1/Zα)-term, while for s1/2-states it starts from Zα2 term. Here α is the fine structure constant and Z is the nuclear charge. In the present work we calculate the α-terms for 2p-states, the result for 2p1/2-state reads (8α/9π)[(1/(Zα)2)+0.710]. Even more interesting are p3/2-states. In this case the ``correction'' is by several orders of magnitude larger than the ``leading'' FNS shift.
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