This volume contains the proceedings of the E-MRS 2013 symposium K, entitled “Physics and Technology of Advanced Extra Functionality CMOS-based Devices” that was held from May 27th to May 31st 2013 in Strasbourg, France. In total, 93 papers were presented, including 13 invited presentations, 51 contributed oral presentations and 29 poster presentations. Our symposium provided an open forum for the presentation of original experimental and theoretical studies that contribute to the physical understanding of phenomena related to new materials and processes for devices that add extra functionality to conventional CMOS backbone processes. Going from core CMOS technology to CMOS derivatives implies a change of paradigm in R & D. While core CMOS ...
This presentation was given at the Arizona Nanotechnology Conference in 2008 by Dr. Stefan Zollner, ...
textNovel logic and memory device concepts are proposed and analyzed. For the latter purpose the co...
What is the future of CMOS? Sustaining increased transistor densities along the path of Moore's Law ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The papers included in this issue of ECS Transactions were originally presented during the 11th inte...
The topics of this annual symposium continue to describe the evolution of traditional scaling in CMO...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
Development and optimization of electronic devices in industrial and academic environments would har...
International audienceDecreasing power dissipation per logic function has become a primary concern i...
Over the years, many new materials have been introduced in advanced complementary metal oxide semico...
The scaling of CMOS devices into the nanometer regime has required the introduction of new materials...
Current electronic devices are built by employing numerous materials and a diverse array of fabricat...
The international technology roadmap of semiconductors (ITRS) is approaching the historical end poin...
The success of the microelectronics industry over more then 30 years is to a large extent based on u...
The continuous and aggressive dimensional miniaturization ofthe conventional complementary-metal-oxi...
This presentation was given at the Arizona Nanotechnology Conference in 2008 by Dr. Stefan Zollner, ...
textNovel logic and memory device concepts are proposed and analyzed. For the latter purpose the co...
What is the future of CMOS? Sustaining increased transistor densities along the path of Moore's Law ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The papers included in this issue of ECS Transactions were originally presented during the 11th inte...
The topics of this annual symposium continue to describe the evolution of traditional scaling in CMO...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
Development and optimization of electronic devices in industrial and academic environments would har...
International audienceDecreasing power dissipation per logic function has become a primary concern i...
Over the years, many new materials have been introduced in advanced complementary metal oxide semico...
The scaling of CMOS devices into the nanometer regime has required the introduction of new materials...
Current electronic devices are built by employing numerous materials and a diverse array of fabricat...
The international technology roadmap of semiconductors (ITRS) is approaching the historical end poin...
The success of the microelectronics industry over more then 30 years is to a large extent based on u...
The continuous and aggressive dimensional miniaturization ofthe conventional complementary-metal-oxi...
This presentation was given at the Arizona Nanotechnology Conference in 2008 by Dr. Stefan Zollner, ...
textNovel logic and memory device concepts are proposed and analyzed. For the latter purpose the co...
What is the future of CMOS? Sustaining increased transistor densities along the path of Moore's Law ...