W. D. Wilson scite author profile

Recent experimental results indicate that existing theories of low-energy nuclear stopping power based upon statistically derived potentials, such as the Thomas-Fermi potential, are in error by over 100%. This paper shows that these errors can be reduced to less than 10%%uo by using more realistic interatomic potentials. We have calculated interatomic potentials from first principles in the free-electron approximation for 14 diatomic interactions representing light particles incident on heavy targets (M, «M, ), self-irradiation (M, = M, ), and hea~y particles on light targets (M, »M, ). The potentials were approximated by a Moliere-like form and the parameters tabulated for general covenience. The classical orbit equation was integrated numerically for bare potentials and the scattering cross section, stopping power, range, and straggling calculated. Simple threeparameter expressions for the stopping power are given which are directly integrable to obtain the range. The results are in reasonable agreement with experiment for a representative Kr-C potential and agree within 10% for an average potential derived from the free-electron calculations.

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Self-trapping of helium in metals

Wilson

1981

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The influence of ionic strength on the interaction of viruses with charged surfaces under environmental conditions

Schaldach

Bourcier

Shaw

et al. 2006

Journal of Colloid and Interface Science

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Atomistics of helium bubble formation in a face-centered-cubic metal

1976

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Rare Gases in Metals

Wilson

Johnson

1972

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W. D. Wilson

Calculations of nuclear stopping, ranges, and straggling in the low-energy region

Self-trapping of helium in metals

The influence of ionic strength on the interaction of viruses with charged surfaces under environmental conditions

Atomistics of helium bubble formation in a face-centered-cubic metal

Rare Gases in Metals

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