F. L. Vook scite author profile

The energy dependence of the ionization produced in germanium by energetic germanium atoms was measured. Germanium solid-state detectors served simultaneously as crystalline Ge sample, neutron target, and ionization detector. The spectrum of ionization produced by prompt Ge recoil atoms energized by monoenergetic neutron bombardment was observed in a pulse-height analyzer, and the edge of the spectrum was identified with the ionization produced by Ge recoil atoms having the calculated maximum recoil energy. The electron-hole pair production of Ge recoils was measured in this manner from 21.4 to 997 keV, using monoenergetic neutrons from 400 keV to 18.6 MeV. In this energy range, the ratio of the ionization produced by a Ge recoil relative to that of an electron of the same energy increased from ~0.15 to ^0.7. At very low Ge recoil energies, most of the energy goes into atomic processes. At high recoil energies, where electronic processes become important, the ionization produced by a Ge recoil appears to approach that for an electron of the same energy. The corresponding partition of energy between electronic processes and atomic processes for an energetic Ge atom in a Ge lattice agrees favorably with predictions of the theory of Lindhard et al. These data together with the earlier results of ionization produced by energetic Si atoms within a Si lattice agree with the A and Z dependence of the partition of energy predicted by Lindhard.

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Ion beam studies of H and He in metals

Picraux¹,

Vook²

1974

Journal of Nuclear Materials

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Depth distribution profiling of deuterium and 3He

Langley¹,

Picraux²,

Vook³

1974

Journal of Nuclear Materials

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Deuterium Lattice Location in Cr and W

Picraux¹,

Vook²

1974

Phys. Rev. Lett.

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F. L. Vook

Relation of neutron to ion damage annealing in Si and Ge

Ionization Produced by Energetic Germanium Atoms within a Germanium Lattice

Ion beam studies of H and He in metals

Depth distribution profiling of deuterium and 3He

Deuterium Lattice Location in Cr and W

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