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Journal article

PENETRATION DEPTH OF 0.5-3-KEV ELECTRONS IN SOLID HYDROGEN AND DEUTERIUM

By Schou, Jørgen1; Sørensen, H.

From

Risø National Laboratory for Sustainable Energy, Technical University of Denmark1

The mirror-substrate method was used for measuring the penetration depth of 0. 5-3-keV electrons in solid hydrogen and deuterium. The penetration depth was found to be 0. 53 multiplied by 10**1**8E**1**. **7**2 molecules/cm**2 with the energy given in keV. There was satisfactory agreement with other data.

The measurements also showed that the escape depth for true secondary electrons from solid deuterium is less than 50 A, which agrees well with the small values for the secondary-electron-emission coefficient found for solid deuterium. Results were furthermore obtained for the electron-reflection coefficient for the gold substrate, i. e. , the number of electrons that are reflected with high energies.

The electron-reflection coefficient agrees well with other results, both with respect to magnitude and energy dependence.

Language: English
Publisher: American Institute of Physics
Year: 1978
Pages: 816-821
ISSN: 10897550 and 00218979
Types: Journal article
DOI: 10.1063/1.324609
ORCIDs: Schou, Jørgen
Keywords

BEAM OPTICS DEUTERIUM ELECTRON BEAMS ELECTRON EMISSION FILMS HYDROGEN KEV RANGE RANGE SECONDARY EMISSION SOLIDS STOPPING POWER

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