International audienceThis paper investigates the intrinsic reliability of ultra-thin buried oxides (UTBOX) integrated in the last generation of FDSOI wafers obtained by the Smart Cut™ technology. In term of breakdown reliability, these state-of-the-art UTBOX oxides exhibit comparable performances with thermally-grown SiO2 references. In “the worst case condition”, the voltage for a 10 years lifetime of 25 nm thick BOX, is estimated to 14 V, which largely exceeds the maximum operating conditions for back-bias [+3 V, –3 V] in advanced FDSOI integrated circuits. This makes UTBOX family of engineered substrates fully compatible and suitable for multi-VT applications
We demonstrate improved device performance by applying oxide sidewall spacer technology to a block-o...
Smart Cut ® Technology has recently been moved forward to a performance that seemed impossible until...
This paper underpins the influence of space-charge condition at the substrate / BOX interface, as a ...
International audienceThis paper investigates the intrinsic reliability of ultra-thin buried oxides ...
Avec une introduction pour le nœud technologique 28nm, l’architecture FDSOI planaire devient une alt...
[[abstract]]High quality thin oxide is indispensable for the Ultra Large Scale Integration (ULSI) ci...
International audienceHigh-Voltage MOSFETs are essential devices for complementing and extending the...
61-81International audienceHigh-Voltage MOSFETs are essential devices for complementing and extendin...
Oxide Thin Film Transistors have been extensively studied as driving elements for realizing next-gen...
The integration of High-k dielectrics in transistors gate stacks lead to new complex reliability iss...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
Abstract—The microelectronics industry owes its considerable success largely to the existence of the...
Emerging trends in the semiconductor device industry call for detailed knowledge of the properties o...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...
Traditional scaling methodology which utilizes channel doping, shallow junctions, etc. is no longer ...
We demonstrate improved device performance by applying oxide sidewall spacer technology to a block-o...
Smart Cut ® Technology has recently been moved forward to a performance that seemed impossible until...
This paper underpins the influence of space-charge condition at the substrate / BOX interface, as a ...
International audienceThis paper investigates the intrinsic reliability of ultra-thin buried oxides ...
Avec une introduction pour le nœud technologique 28nm, l’architecture FDSOI planaire devient une alt...
[[abstract]]High quality thin oxide is indispensable for the Ultra Large Scale Integration (ULSI) ci...
International audienceHigh-Voltage MOSFETs are essential devices for complementing and extending the...
61-81International audienceHigh-Voltage MOSFETs are essential devices for complementing and extendin...
Oxide Thin Film Transistors have been extensively studied as driving elements for realizing next-gen...
The integration of High-k dielectrics in transistors gate stacks lead to new complex reliability iss...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
Abstract—The microelectronics industry owes its considerable success largely to the existence of the...
Emerging trends in the semiconductor device industry call for detailed knowledge of the properties o...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...
Traditional scaling methodology which utilizes channel doping, shallow junctions, etc. is no longer ...
We demonstrate improved device performance by applying oxide sidewall spacer technology to a block-o...
Smart Cut ® Technology has recently been moved forward to a performance that seemed impossible until...
This paper underpins the influence of space-charge condition at the substrate / BOX interface, as a ...