Low-frequency noise has been investigated in self-aligned ?SA. and gate overlapped lightly doped drain ?GOLDD. polysilicon thin-film transistors ?TFTs.. We found that, at low Vds, both device structures are characterised by 1f noise, originating from carrier number fluctuations. However, when the SA devices were operated in the kink regime, an excess noise was observed, in contrast to GOLDD TFTs. This has been explained by attributing the excess noise to supplemental oxide charge fluctuations induced by hot-carrier injection into the gate oxide. By using two-dimensional numerical simulations, we show that the hot-electron emission current in SA polysilicon TFTs is much higher than in the GOLDD structure.
Low-frequency excess noise induced by hot-carrier injection in polysilicon thin-film transistors
A Valletta;L Mariucci;G Fortunato
2001
Abstract
Low-frequency noise has been investigated in self-aligned ?SA. and gate overlapped lightly doped drain ?GOLDD. polysilicon thin-film transistors ?TFTs.. We found that, at low Vds, both device structures are characterised by 1f noise, originating from carrier number fluctuations. However, when the SA devices were operated in the kink regime, an excess noise was observed, in contrast to GOLDD TFTs. This has been explained by attributing the excess noise to supplemental oxide charge fluctuations induced by hot-carrier injection into the gate oxide. By using two-dimensional numerical simulations, we show that the hot-electron emission current in SA polysilicon TFTs is much higher than in the GOLDD structure.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
