Ionizing radiation induced leakage current on ultra-thin gate oxides

Ionizing radiation induced leakage current on ultra-thin gate oxides

MOS capacitors with a 4.4 nm thick gate oxide have been exposed to /spl gamma/ radiation from a Co/sup 60/ source. As a result, we have measured a stable leakage current at fields lower than those required for Fowler-Nordheim tunneling. This Radiation Induced Leakage Current (RILC) is similar to the...

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Veröffentlicht in:IEEE Transactions on Nuclear Science 1997-12, Vol.44 (6), p.1818-1825
Hauptverfasser: Scarpa, A., Paccagnella, A., Montera, F., Ghibaudo, G., Pananakakis, G., Ghidini, G., Fuochi, P.G.
Format: Artikel
Sprache:eng
Schlagworte:
Current measurement
GAMMA RADIATION
INSTRUMENTATION, INCLUDING NUCLEAR AND PARTICLE DETECTORS
Ionizing radiation
LEAKAGE CURRENT
Microelectronics
MOS capacitors
MOS devices
Oxidation
PHYSICAL RADIATION EFFECTS
RADIATION DOSES
SEMICONDUCTOR DEVICES
Stress
Substrates
TRAPS
Tunneling
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Zusammenfassung:MOS capacitors with a 4.4 nm thick gate oxide have been exposed to /spl gamma/ radiation from a Co/sup 60/ source. As a result, we have measured a stable leakage current at fields lower than those required for Fowler-Nordheim tunneling. This Radiation Induced Leakage Current (RILC) is similar to the usual Stress Induced Leakage Currents (SILC) observed after electrical stresses of MOS devices. We have verified that these two currents share the same dependence on the oxide field, and the RILC contribution can be normalized to an equivalent injected charge for Constant Current Stresses. We have also considered the dependence of the RILC from the cumulative radiation dose, and from the applied bias during irradiation, suggesting a correlation between RILC and the distribution of trapped holes and neutral levels in the oxide layer.
ISSN:0018-9499
1558-1578
DOI:10.1109/23.658948