High-mobility channel materials such as indium-galium-arsenide (InGaAs) and silicon-germanium(SiGe) alloys are considered to be the leading candidates for replacing silicon (Si) in future lowpower complementary metal-oxide-semiconductor (CMOS) circuits. Numerous challenges haveto be tackled in order to turn the high-mobility CMOS concept into an industrial solution. Thisthesis addresses the majors challenges which are the integration of InGaAs on Si, the formationof high-quality gate stacks and self-aligned source and drain (S/D) regions, the optimizationof self-aligned transistors and the co-integration of InGaAs and SiGe into CMOS circuits. Allinvestigated possible solutions are proposed in the framework of very-large-scale integration re...
Metal oxide semiconductors are emerging class of semiconductors with tremendous potential to replace...
Silicon-on-insulator (SOI) substrates represent the best solution to achieve high performance device...
Nowadays the scaling of bulk silicon CMOS technologies is reaching physical limits. In this context,...
High-mobility channel materials such as indium-galium-arsenide (InGaAs) and silicon-germanium(SiGe) ...
Les materiaux à forte mobilité comme l’InGaAs et le SiGe sont considérés comme des candidats potenti...
Conventional Si complementary-metal-oxide-semiconductor (CMOS) scaling is fast approaching its limit...
Electrons pumps have been extensively studied and manufactured by the scientific world. They generat...
As silicon (Si) complementary metal oxide semiconductor (CMOS) technology continues to scale into th...
Les pompes à électrons ont été très étudiées et fabriquées par le monde scientifique. Elles génèrent...
Silicon on insulator (SOI) transistors are among the best candidates for sub-22nm technology nodes. ...
In the last 50 years, our economy and society have obviously been influenced and shaped to a great e...
Information technology has grown rapidly in the last few decades and is becoming one of the basic ne...
Metal oxide semiconductors are emerging class of semiconductors with tremendous potential to replace...
Silicon-on-insulator (SOI) substrates represent the best solution to achieve high performance device...
Nowadays the scaling of bulk silicon CMOS technologies is reaching physical limits. In this context,...
High-mobility channel materials such as indium-galium-arsenide (InGaAs) and silicon-germanium(SiGe) ...
Les materiaux à forte mobilité comme l’InGaAs et le SiGe sont considérés comme des candidats potenti...
Conventional Si complementary-metal-oxide-semiconductor (CMOS) scaling is fast approaching its limit...
Electrons pumps have been extensively studied and manufactured by the scientific world. They generat...
As silicon (Si) complementary metal oxide semiconductor (CMOS) technology continues to scale into th...
Les pompes à électrons ont été très étudiées et fabriquées par le monde scientifique. Elles génèrent...
Silicon on insulator (SOI) transistors are among the best candidates for sub-22nm technology nodes. ...
In the last 50 years, our economy and society have obviously been influenced and shaped to a great e...
Information technology has grown rapidly in the last few decades and is becoming one of the basic ne...
Metal oxide semiconductors are emerging class of semiconductors with tremendous potential to replace...
Silicon-on-insulator (SOI) substrates represent the best solution to achieve high performance device...
Nowadays the scaling of bulk silicon CMOS technologies is reaching physical limits. In this context,...