Title :
Prediction of defect onset conditions in heat cycling based on a thermoelastic wafer model
Author :
Mokuya, Kinji ; Matsuba, Ikuo
Author_Institution :
Hitachi Ltd., Kawasaki, Japan
fDate :
2/1/1989 12:00:00 AM
Abstract :
A thermoelastic wafer model is proposed for predicting defect onset conditions during heat cycling in a furnace. This model is formulated for application to the plane stress state under thermal loading. The wafer temperature is calculated by a wafer temperature model proposed in a previous work. Predictions are tested by comparison with the thermal stresses resolved on the slip systems of the silicon crystal under the process conditions (i.e. furnace temperature, insertion velocity, and wafer spacing). When the proposed model is applied to 125-mm diameter and 150-mm-diameter wafers, it is shown that the thermal stress level is reduced to about a half by increasing the wafer spacing by a factor of two or three. Accordingly, the predicted defect onset results based on this model are in reasonable agreement with experiments
Keywords :
crystal defects; elemental semiconductors; semiconductor technology; silicon; thermal stresses; 125 mm; 150 mm; Si wafers; experiments; furnace temperature; heat cycling; insertion velocity; plane stress state; predicting defect onset conditions; process yield; slip systems; thermal loading; thermal stresses; thermoelastic wafer model; wafer spacing; wafer temperature; Furnaces; Predictive models; Semiconductor device modeling; Silicon; System testing; Temperature; Thermal factors; Thermal loading; Thermal stresses; Thermoelasticity;
Journal_Title :
Electron Devices, IEEE Transactions on
