Abstract
The effect of deuterium on hot-carrier reliability of fully processed 0.18 /spl mu/m silicon-on-insulator (SOI) devices is investigated. The improvement of device lifetime by a factor of 30 is achieved by passivating the interface defects with deuterium instead of hydrogen. The hydrogen/deuterium isotope effect (/spl gamma/), defined as the ratio of generation interface traps of a hydrogenated device to that of a deuterated one, shows strong dependence on the gate stress voltages (V/sub gs/). Increasing V/sub gs/ results in the decrease of /spl gamma/. These results suggest that the breaking of Si-H(D) bonds by channel electrons through the vibrational heating mechanism may play an important role in the degradation of deep submicron SOI devices.
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