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The approximations normally used in the calculation of the isomer shift are compared with the exact expressions using Dirac-Slater orbitals and a three-parameter Fermi-type nuclear charge distribution. The nonuniformity of the electronic density over the nuclear volume affects the results. Different choices of the nuclear surface thickness t and the radius c in the protonic density P_N (\gamma) also affects the isomer shift differently even though the values are chosen to yield a given value of \delta <r^2>. The change in the electronic charge density which is caused by the alteration of P_N (\gamma) in the ground state and excited state of the nucleus is discussed using two extrememodels and the possible influence on the observable isomer shift is estimated.
@article{urn:nbn:de:hebis:34-2008091523798, author ={Fricke, Burkhard and Waber, James Thomas}, title ={Calculation of isomer shift in Mössbauer spectroscopy}, copyright ={https://rightsstatements.org/page/InC/1.0/}, language ={en}, year ={1972} }