Self-heating-related instabilities have been investigated in p-channel polycrystalline-silicon thin-film transistor, showing an anomalous transconductance (gm) increase. The gm increase is a fingerprint of edge effects, resulting from a buildup of positive trapped charge in the gate oxide at the channel edges. This was confirmed by the annihilation of such positive charges obtained by sequential hot-carrier bias-stress experiments. From the analysis of the edge effects in devices with different channel lengths, we were able, using 2-D numerical simulations, to determine the size of the defected edge regions to be 400 nm.
Edge Effects in Self-Heating-Related Instabilities in p-Channel Polycrystalline-Silicon Thin-Film Transistors
L Mariucci;P Gaucci;A Valletta;A Pecora;L Maiolo;G Fortunato
2011
Abstract
Self-heating-related instabilities have been investigated in p-channel polycrystalline-silicon thin-film transistor, showing an anomalous transconductance (gm) increase. The gm increase is a fingerprint of edge effects, resulting from a buildup of positive trapped charge in the gate oxide at the channel edges. This was confirmed by the annihilation of such positive charges obtained by sequential hot-carrier bias-stress experiments. From the analysis of the edge effects in devices with different channel lengths, we were able, using 2-D numerical simulations, to determine the size of the defected edge regions to be 400 nm.File in questo prodotto:
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