V. S. Zhdanov scite author profile

The KLL Auger spectrum of rubidium following the electron capture (EC) decay of 83 Sr and 85 Sr isotopes was experimentally studied in detail for the first time using one 83 Sr source and three 85 Sr sources in different host matrices. Energies, relative intensities, and natural widths of all the nine well-resolved basic spectrum components were determined and compared with both predictions and experimental data for krypton. The results of our multiconfiguration Dirac-Fock calculations demonstrated an influence of the 'atomic structure effect' on absolute energies of the KLL transitions following the creation of initial vacancies by the EC decay. Environmental effects on the KLL Auger spectrum were distinctly observed only for the absolute transition energies.

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Efficient depth selective conversion electron Mössbauer spectroscopy using a magnetic sector beta-spectrometer

Ryzhykh¹,

Babenkov²,

Bobykin³

et al. 1990

Nuclear Instruments and Methods in Physics Research Section B:

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V. S. Zhdanov

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Improved energies for the 5.2 keV M1 and 42.0 keV M2 nuclear transitions in 83Rb

Search for environmental effects on the KLL Auger spectrum of rubidium generated in radioactive decay

Efficient depth selective conversion electron Mössbauer spectroscopy using a magnetic sector beta-spectrometer

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