Add to ORKGThese proceedings describe processing, materials and equipment for CMOS front-end integration including gate stack, source/drain and channel engineering. Topics: strained Si/SiGe and Si/SiGe on insulator; high-mobility channels including III-Vzs, etc.; nanowires and carbon nanotubes; high-k dielectrics, metal and FUSI gate electrodes; doping/annealing for ultra-shallow junctions; low-resistivity contacts; advanced deposition (e.g. ALD, CVD, MBE), RTP, UV, plasma and laser-assisted processes
Current electronic devices are built by employing numerous materials and a diverse array of fabricat...
textSince metal-oxide-semiconductor (MOS) device was first reported around 1959 and utilized for int...
Silicon-Germanium (SiGe) is considered to substitute Silicon (Si) as channel material in future CMOS...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The topics of this annual symposium continue to describe the evolution of traditional scaling in CMO...
A review of recently emerging semiconductor devices for nanoelectronic applications is given. For th...
The continuous and aggressive dimensional miniaturization ofthe conventional complementary-metal-oxi...
The scaling of CMOS devices into the nanometer regime has required the introduction of new materials...
Over the years, many new materials have been introduced in advanced complementary metal oxide semico...
An overview of critical integration issues for future generation MOSFETs towards 10 nm gate length i...
Current electronic devices are built by employing numerous materials and a diverse array of fabricat...
textSince metal-oxide-semiconductor (MOS) device was first reported around 1959 and utilized for int...
Silicon-Germanium (SiGe) is considered to substitute Silicon (Si) as channel material in future CMOS...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
These proceedings describe processing, materials and equipment for CMOS front-end integration includ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The editors (of North Carolina State U., Qualcomm MEMS Technologies, and Mattson Technology Inc. in ...
The topics of this annual symposium continue to describe the evolution of traditional scaling in CMO...
A review of recently emerging semiconductor devices for nanoelectronic applications is given. For th...
The continuous and aggressive dimensional miniaturization ofthe conventional complementary-metal-oxi...
The scaling of CMOS devices into the nanometer regime has required the introduction of new materials...
Over the years, many new materials have been introduced in advanced complementary metal oxide semico...
An overview of critical integration issues for future generation MOSFETs towards 10 nm gate length i...
Current electronic devices are built by employing numerous materials and a diverse array of fabricat...
textSince metal-oxide-semiconductor (MOS) device was first reported around 1959 and utilized for int...
Silicon-Germanium (SiGe) is considered to substitute Silicon (Si) as channel material in future CMOS...