Solid‐State Detector for Low‐Energy Ions

Heinz, O.; Gyorgy, E. M.; Ohl, R. S.

doi:10.1063/1.1715363

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Research Article| January 01 1956

Solid‐State Detector for Low‐Energy Ions

O. Heinz;

O. Heinz

Holmdel Radio Research Laboraotry, Bell Telephone Laboratories, Holmdel, New Jersey

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E. M. Gyorgy;

E. M. Gyorgy

Holmdel Radio Research Laboraotry, Bell Telephone Laboratories, Holmdel, New Jersey

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R. S. Ohl

Holmdel Radio Research Laboraotry, Bell Telephone Laboratories, Holmdel, New Jersey

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Author & Article Information

O. Heinz

,

E. M. Gyorgy

,

R. S. Ohl

Holmdel Radio Research Laboraotry, Bell Telephone Laboratories, Holmdel, New Jersey

Rev. Sci. Instrum. 27, 43–47 (1956)

https://doi.org/10.1063/1.1715363

The electrical properties of a polished surface of high‐purity silicon can be greatly modified by heavy ion bombardment. In particular, the change in the rectifying properties of silicon has been used as a detector of low energy ions striking the surface. By bombarding with He⁺ ions through a silver film which was evaporated directly on the silicon, we determined the thickness of Ag at which ions no longer reached the silicon surface. By this method it was found that the range of 30 kev He⁺ ions in Ag films is 2480±250 A. The lowest ion energy which produces an observable effect on the silicon is about 200 ev. Similar effects have been observed for hydrogen, argon, nitrogen, and oxygen ions. Other electrical properties of silicon surfaces which have possibilities as ion indicators are mentioned.

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See also H. K. Henisch, editor, Semi‐Conducting Materials (Butterworth Scientific Publications, Ltd., London, June, 1951), pp. 47–69 a paper titled “Nucleon‐Bombarded Semi‐Conductors” by Karl Lark‐Horovtiz.

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1956

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Solid‐State Detector for Low‐Energy Ions

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Solid‐State Detector for Low‐Energy Ions