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Charge collection at large angles of incidence (1992)

Reed, R. A. ; Roth, D. R. ; Stassinopoulos, E. G. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Charge collection exhibited by p-n junctions, which have at least one small dimension, deviates from the geometric assumptions commonly used in SEU (single event upset) testing. The amount of charge collected did not increase with the secant of the angle of incidence. The number of events under the peak in the charge collection spectrum did not decrease as the cosine of the angle of incidence. Both the position of the peak and the number of events under the peak measured at a given angle of incidence depended upon which symmetry axis of the device was chosen to be the axis of rotation.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: IEEE Transactions on Nuclear Science (ISSN 0018-9499); 39; 6, pt; p. 1622-1629.

Format: text

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Microdensity in space using microelectronic circuits (1993)

Stassinopoulos, E. G. ; Mcnulty, P. J. ; Abdel-Kader, W. G. ; [et al.]

In: Other Sources

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Publication Date: 2019-01-25

Description: Single event phenomena in biological organisms are compared with similar phenomena in microeletronic circuits and the similarities and differences are discussed. Both types of phenomena appear to obey the same model, at least to first order. The general applicability of this first-order model appears to reflect the need to operate despite the noise inherent in the storage and processing of information within microscopic volume elements. Arrays of p-n junctions, each having dimensions of a few microns, are proposed as solid state microdosimeters.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: ; : Spaceflight mechan

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Proton upsets in LSI memories in space (1980)

Wyatt, R. C. ; Farrell, G. E. ; Mcnulty, P. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Two types of large scale integrated dynamic random access memory devices were tested and found to be subject to soft errors when exposed to protons incident at energies between 18 and 130 MeV. These errors are shown to differ significantly from those induced in the same devices by alphas from an Am-241 source. There is considerable variation among devices in their sensitivity to proton-induced soft errors, even among devices of the same type. For protons incident at 130 MeV, the soft error cross sections measured in these experiments varied from 10 to the -8th to 10 to the -6th sq cm/proton. For individual devices, however, the soft error cross section consistently increased with beam energy from 18-130 MeV. Analysis indicates that the soft errors induced by energetic protons result from spallation interactions between the incident protons and the nuclei of the atoms comprising the device. Because energetic protons are the most numerous of both the galactic and solar cosmic rays and form the inner radiation belt, proton-induced soft errors have potentially serious implications for many electronic systems flown in space.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: AD-A107331 , AFGL-TR-81-0315

Format: text

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