Full Scale Relativistic Ab Initio Time Dependent Calculations for the L-K Vacancy Transfer in 208 MeV Ni23+ on a Ge Solid Target
We present full scale ab initio relativistic calculations for the L-K vacancy transfer in collisions of 208 MeV Ni23+ on a Ge solid target. Our Dirac-Fock-Slater method allows us to achieve a very accurate quantitative explanation for the experimental impact parameter-dependent vacancy probabilities in terms of dynamic creation and annihilation of Ni n = 2 shell vacancies.
P. Kurpick and T. Bastug and B. Fricke and W. D. Sepp and A. Warczak and M. Jager and J. H. Ullrich and T. Kandler and M. Schulz and A. Demian and M. Damrau and H. Brauning and H. Schmidt-Bocking and M. Damrau, "Full Scale Relativistic Ab Initio Time Dependent Calculations for the L-K Vacancy Transfer in 208 MeV Ni23+ on a Ge Solid Target," Physics Letters A, vol. 207, no. 1-4, pp. 199-202, Elsevier, Oct 1995.
The definitive version is available at http://dx.doi.org/10.1016/0375-9601(95)00681-R
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