In this study, a very dilute solution (NH4OH:H2O2:H2O 1:8:64 mixture) was employed to reduce the thickness of commercially available SOI wafers down to 3 nm. The etch rate is precisely controlled at 0.11 A ̊ s−1 based on the self-limited etching speed of the solution. The thickness uniformity of the thin film, evaluated by spectroscopic ellipsometry and by high-resolution x-ray reflectivity, remains constant through the thinning process. Moreover, the film roughness, analyzed by atomic force microscopy, slightly improves during the thinning process. The residual stress in the thin film is much smaller than that obtained by sacrificial oxidation. Mobility, measured by means of a bridge-type Hall bar on 15 nm film, is not significantly reduce...
Due to the shrinkage of the gate length of the MOS device, the drivability is improved, but a short ...
Summary form only given. To maximize the performance of SOI-CMOS transistors, the silicon film under...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...
In this study, a very dilute solution (NH4OH:H2O2:H2O 1:8:64 mixture) was employed to reduce the thi...
International audiencePseudo-MOS (Ψ -MOSFET) measurements are a simple and rapid technique for an ac...
Silicon-on-insulator (SOI) technology is an effective approach of mitigating the short channel effec...
International audienceThe characterization of nanosize SOI materials and devices is challenging beca...
The effects of scaling MESA isolated (with sidewall reoxidation) SOI MOSFET's with respect to channe...
Abstract—In this letter, we show that undoped-body extremely thin SOI (ETSOI) MOSFETs with SOI thick...
This paper reports about the extensive electrical characterization, with low distortion and greater ...
to a performance that seemed impossible until just recently. FDSOI requirements demand a method to t...
[[abstract]]This study investigates the effects of oxide traps induced by SOI of various thicknesses...
Traditional scaling methodology which utilizes channel doping, shallow junctions, etc. is no longer ...
In this work. the speed performance and static power dissipation of the ultra-thin body (UTB) MOSFET...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Due to the shrinkage of the gate length of the MOS device, the drivability is improved, but a short ...
Summary form only given. To maximize the performance of SOI-CMOS transistors, the silicon film under...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...
In this study, a very dilute solution (NH4OH:H2O2:H2O 1:8:64 mixture) was employed to reduce the thi...
International audiencePseudo-MOS (Ψ -MOSFET) measurements are a simple and rapid technique for an ac...
Silicon-on-insulator (SOI) technology is an effective approach of mitigating the short channel effec...
International audienceThe characterization of nanosize SOI materials and devices is challenging beca...
The effects of scaling MESA isolated (with sidewall reoxidation) SOI MOSFET's with respect to channe...
Abstract—In this letter, we show that undoped-body extremely thin SOI (ETSOI) MOSFETs with SOI thick...
This paper reports about the extensive electrical characterization, with low distortion and greater ...
to a performance that seemed impossible until just recently. FDSOI requirements demand a method to t...
[[abstract]]This study investigates the effects of oxide traps induced by SOI of various thicknesses...
Traditional scaling methodology which utilizes channel doping, shallow junctions, etc. is no longer ...
In this work. the speed performance and static power dissipation of the ultra-thin body (UTB) MOSFET...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Due to the shrinkage of the gate length of the MOS device, the drivability is improved, but a short ...
Summary form only given. To maximize the performance of SOI-CMOS transistors, the silicon film under...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...