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• W2007083477 abstract "In this study a detailed investigation of the high-energy satellites of the ${L}_{2,3}$ Auger emission bands of Al, Si, and P was made. The satellites are interpreted as arising from double ionization of the ${L}_{2,3}$ shell rather than from a plasmon gain process. The parent-to-satellite energy separations $ensuremath{Delta}E$ between like structures were determined and were found to be consistently smaller than the volume-plasmon energies measured for the same samples. A comparison of Si and SiO revealed no evidence that $ensuremath{Delta}E$ for Si is dependent on the volume-plasmon energy of the sample. The satellite threshold excitation energies ${E}_{t}$ were determined and were found to compare well with results expected for double ionization of the ${L}_{2,3}$ level. In the energy range ${E}_{t}<{E}_{p}ensuremath{le}2$ KeV the ratio of the satellite-to-parent Auger intensities for all three samples was in good agreement when plotted vs the reduced energy scale, $frac{{E}_{p}}{{E}_{t}}$. The results were also found to be consistent with Gryzinski's binary-encounter model. If satellites in the Auger spectrum arise from double ionization of an inner-core level, then a corresponding ionization-loss peak should be present in the characteristic loss spectrum associated with the elastic peak. An ionization-loss peak was found for Si at a loss energy of 216 eV and is tentatively identified as a loss peak associated with double ionization of the ${L}_{2,3}$ shell." @default.
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• W2007083477 date "1974-06-01" @default.
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• W2007083477 title "Auger satellites of theL2,3Auger emission bands of Al, Si, and P" @default.
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• W2007083477 doi "https://doi.org/10.1103/physrevb.9.4618" @default.
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