Publication | Open Access
Modeling the anneal of radiation-induced trapped holes in a varying thermal environment
216
Citations
13
References
1990
Year
Radiative Heat TransferEngineeringThermal RadiationSemiconductor DeviceNanoelectronicsVarying Thermal EnvironmentNumerical SimulationMos TransistorsRadiation-induced Trapped HolesThermal ModelingThermodynamicsSemiconductor TechnologyElectrical EngineeringPhysicsThermal TransportSingle Event EffectsRadiation TransportDefect FormationSemiconductor Device FabricationHeat TransferMicroelectronicsThermal EmissionApplied PhysicsThermal Engineering
The anneal of radiation-induced trapped holes in MOS transistors is found to be thermally activated. A quantitative, physical model based on thermal emission and tunneling is developed. It accurately predicts the anneal of radiation-induced trapped holes in constant or time-varying thermal environments. Data are presented which quantitatively verify the accuracy of the model for temperatures between 25 and 160 degrees C. This model provides the basis for developing accurate quantitative screens for the rebound failure mechanism.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
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