Abstract

The total ionizing dose (TID) response of bulk FinFETs is investigated for various geometry variations, such as fin width, channel length, and fin pitch. The buildup of oxide-trapped charge in the shallow trench isolation turns on a parasitic transistor, leading to increased leakage current (higher IOFF.) The TID-induced degradation increases with decreasing fin width. Transistors with longer channels degrade less than those with shorter channels. Transistors with large fin pitch degrade more, compared to those with narrow fin pitch. TCAD simulations are used to analyze the buildup of trapped charge in the trench isolation oxide and its impact on the increase in leakage current. The strong influence of charge in the STI in narrow-fin transistors induces a parasitic leakage current path between the source and the drain, while in wide-fin devices, for the same amount of trapped charge in the isolation oxide, the subsurface leakage path is less effective.

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