Add to ORKG\u3cp\u3eWe have characterised the effects of ion implantation in advanced MOSFETs, and have shown that severe gate oxide degradations can be induced by ion implantations used routinely in front-end processing of MOS transistors. The mechanisms of oxide degradation are revealed to be connected to the nuclear energy transfer to the O atoms in the oxide during implantation. Si and O ion mixing can result in significant increase of the effective oxide thickness which also result in intrinsic device performance degradation.\u3c/p\u3
We present the first experimental data about the response of partially (PD) and fully (FD) depleted ...
Total ionizing dose effects are predominan...
arrays. Heavy ion irradiation has no or negligible immediate effects on the nanocrystal MOSFET chara...
\u3cp\u3eIon implantation has been used to realize non-uniform, steep retrograde (SR) dopant profile...
The ion implantation of heavy dopant species through very thin silicon oxide gate insulators degrade...
An accelerated wear-out of ultra-thin gate oxides used in contemporary deep-submicron CMOS technolog...
A shift of the threshold voltage (V th ) in high voltage metal-oxide-semiconductor field effect tran...
Effect of the trapped Si ions in a 30-nm gate oxide implanted with Si/sup +/ at a very low energy (1...
The incorporation of nitrogen in silicon has been shown to retard the oxidation growth rate. The pre...
In this work we are moving our attention on MOSFETs, which are the real basic element of all CMOS ap...
We present the first experimental data about the wear-out of a 0.1um partially depleted SOI CMOS tec...
Here we study the effects of implanting nitrogen (N’) into the substr e prior to thermal oxidation. ...
International audienceIn this study, we have characterized the degradation of metal–oxide–semiconduc...
International audienceWe review the hot-carrier injection phenomena in gate-oxide and the related de...
We briefly review the most important degradation mechanisms affecting ultra-thin gate oxides after e...
We present the first experimental data about the response of partially (PD) and fully (FD) depleted ...
Total ionizing dose effects are predominan...
arrays. Heavy ion irradiation has no or negligible immediate effects on the nanocrystal MOSFET chara...
\u3cp\u3eIon implantation has been used to realize non-uniform, steep retrograde (SR) dopant profile...
The ion implantation of heavy dopant species through very thin silicon oxide gate insulators degrade...
An accelerated wear-out of ultra-thin gate oxides used in contemporary deep-submicron CMOS technolog...
A shift of the threshold voltage (V th ) in high voltage metal-oxide-semiconductor field effect tran...
Effect of the trapped Si ions in a 30-nm gate oxide implanted with Si/sup +/ at a very low energy (1...
The incorporation of nitrogen in silicon has been shown to retard the oxidation growth rate. The pre...
In this work we are moving our attention on MOSFETs, which are the real basic element of all CMOS ap...
We present the first experimental data about the wear-out of a 0.1um partially depleted SOI CMOS tec...
Here we study the effects of implanting nitrogen (N’) into the substr e prior to thermal oxidation. ...
International audienceIn this study, we have characterized the degradation of metal–oxide–semiconduc...
International audienceWe review the hot-carrier injection phenomena in gate-oxide and the related de...
We briefly review the most important degradation mechanisms affecting ultra-thin gate oxides after e...
We present the first experimental data about the response of partially (PD) and fully (FD) depleted ...
Total ionizing dose effects are predominan...
arrays. Heavy ion irradiation has no or negligible immediate effects on the nanocrystal MOSFET chara...