Abstract
Self-heating-related instabilities have been studied in p-channel polycrystalline-silicon thin-film transistors. The spatial distribution of the interface-state and fixed-oxide-charge densities generated during self-heating experiments has been analyzed and quantitatively determined by using negative-bias temperature stress experiments and 2-D numerical simulations. In addition, the observed asymmetry in the output characteristics with respect to source/drain contact reversal is also perfectly reproduced, confirming the validity of the proposed model.
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