Supershells in Metal Clusters: Self-Consistent Calculations and their
  Semiclassical Interpretation

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Abstract

To understand the electronic shell- and supershell-structure in large metal clusters we have performed self-consistent calculations in the homogeneous, spherical jellium model for a variety of different materials. A scaling analysis of the results reveals a surprisingly simple dependence of the supershells on the jellium density. It is shown how this can be understood in the framework of a periodic-orbit-expansion by analytically extending the well-known semiclassical treatment of a spherical cavity to more realistic potentials.

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Work function of small metal particles: Self-consistent spherical jellium-background model

W. Ekardt (1984)

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Is Open Access

Hyperfine Populations Prior to Muon Capture

J. Congleton (1992)

It is shown that the 1S level hyperfine populations prior to muon capture will be statistical when either target or beam are unpolarised independent of the atomic level at which the hyperfine interaction becomes appreciable. This assertion holds in the absence of magnetic transitions during the cascade and is true because of minimal polarisation after atomic capture and selective feeding during the cascade.