Add to ORKGAbstract—In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are implemented as gate di-electrics. We evaluate both drain- and gate-current noises in order to obtain information about the defect content of the gate stack. We analyze how the overall quality of the gate stack depends on the kind of high-k material, on the interfacial layer thickness, on the kind of gate electrode material, on the strain engineering, and on the substrate type. This comprehensive study allows us to understand which issues need to be addressed in order to achieve improved quality of the gate stack from a 1/f noise point of view. Index Terms—Drain noise, gate noise, high-k dielectric, MOSFET, 1/f noise. I
Carrier trapping/detrapping from/to the gate into dielectric traps is often neglected when modeling ...
Carrier trapping/detrapping from/to the gate into dielectric traps is often neglected when modeling ...
A review is given on the low-frequency (LF) noise behavior of transistors fabricated with a high-kap...
Abstract—In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are ...
In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are implement...
In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are implement...
The ITRS roadmap clearly outlines the necessity to implement high-κ dielectrics for sub 45 nm techno...
Abstract—This letter studies the impact of defects close to the gate electrode side on low-frequency...
International audienceWe have investigated gate and drain current noise on strained-channel n-MOSFET...
International audienceWe have investigated gate and drain current noise on strained-channel n-MOSFET...
International audienceWe have investigated gate and drain current noise on strained-channel n-MOSFET...
Abstract—The impact of the interfacial layer thickness on the low-frequency (LF) noise (1/f noise) b...
In this letter, a new physical 1/f noise model is developed for double-stack high-k dielectric MOSFE...
In this letter, a new physical 1/f noise model is developed for double-stack high-k dielectric MOSFE...
This work summarizes the results of modeling and simulation of drain current low-frequency (1/f) noi...
Carrier trapping/detrapping from/to the gate into dielectric traps is often neglected when modeling ...
Carrier trapping/detrapping from/to the gate into dielectric traps is often neglected when modeling ...
A review is given on the low-frequency (LF) noise behavior of transistors fabricated with a high-kap...
Abstract—In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are ...
In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are implement...
In this paper, we investigate the quality of MOSFET gate stacks where high-k materials are implement...
The ITRS roadmap clearly outlines the necessity to implement high-κ dielectrics for sub 45 nm techno...
Abstract—This letter studies the impact of defects close to the gate electrode side on low-frequency...
International audienceWe have investigated gate and drain current noise on strained-channel n-MOSFET...
International audienceWe have investigated gate and drain current noise on strained-channel n-MOSFET...
International audienceWe have investigated gate and drain current noise on strained-channel n-MOSFET...
Abstract—The impact of the interfacial layer thickness on the low-frequency (LF) noise (1/f noise) b...
In this letter, a new physical 1/f noise model is developed for double-stack high-k dielectric MOSFE...
In this letter, a new physical 1/f noise model is developed for double-stack high-k dielectric MOSFE...
This work summarizes the results of modeling and simulation of drain current low-frequency (1/f) noi...
Carrier trapping/detrapping from/to the gate into dielectric traps is often neglected when modeling ...
Carrier trapping/detrapping from/to the gate into dielectric traps is often neglected when modeling ...
A review is given on the low-frequency (LF) noise behavior of transistors fabricated with a high-kap...