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An Improved Average Atomic Number Calculation for Estimating Backscatter and Continuum Production in Compounds

J Donovan, Andrew Ducharme, Joseph J. Schwab, Aurélien Moy, Z. Gainsforth, Benjamin P. Wade, Benjamin McMorran

2023Microscopy and Microanalysis14 citationsDOI

Abstract

It is often assumed that electron backscatter and continuum (bremsstrahlung) productions emitted from electron-solid interactions during X-ray microanalysis in compounds can be extrapolated from pure element observations by means of the assumption of average atomic number, or Z-bar (Z¯). For pure elements the average Z is equal to the atomic number, but this direct approach fails for compounds. The use of simple atomic fractions yields completely spurious results, and while the commonly used mass fraction Z averaging produces fairly reasonable results, we know from physical considerations that the mass of the neutron plays only a negligible role in such interactions below ∼1 MeV. Therefore, including the mass or atomic weight in such calculations can only introduce further errors in these models. We present an expression utilizing atomic fractions of the atomic numbers of the elements in the compound (Z fraction), with an exponent to account for the variation in nuclear screening as a function of the element Z value.

Topics & Concepts

Atomic numberAtomic massMass numberBremsstrahlungAvogadro constantAtomic physicsEffective atomic numberExponentAtomic theoryMass fractionPhysicsNeutronElectronComputational physicsNuclear physicsThermodynamicsLinguisticsPhilosophyNuclear Physics and ApplicationsAdvanced X-ray and CT ImagingNuclear Materials and Properties