Modeling of oxide breakdown from gate charging during resist ashing

Plasma damage was observed after exposing an antenna capacitor structure to an O₂ plasma in a single wafer resist asher. The observed early breakdown is well modeled by surface charging caused by plasma nonuniformity. Here, the plasma nonuniformity was induced by gas flow and electrode configuration. The present results agree well with our previous results where magnetic field leads to a nonuniform plasma. In this model, nonuniformity leads to a local imbalance of ion and electron currents which charge up the gate surface and degrade the gate oxide. Using SPICE, a circuit model for the test structure and plasma measurements, the Fowler-Nordheim current through the thin oxide regions at different points on the wafer was calculated and found to agree well with the observed damage. The important implication of this work on oxide reliability is that the modeling gives a clear picture to this breakdown mechanism. The charging model can also be applied to any ashing process in any nonuniform plasma. Moreover, this model provides a physical basis for design rules of device structures for the fabrication of reliable gate oxides in submicron MOS technology