Add to ORKGElectron transport in model Si nanotransistors is examined by numerical simulation using a hierarchy of simulation methods, from full Boltzmann, to hydrodynamic, energy transport, and drift-diffusion. The on-current of a MOSFET is shown to be limited by transport across a low-field region about one mean-free-path long and located at the beginning of the channel. Commonly used transport models based on simplified solutions of the Boltzmann equation are shown to fail under such conditions. The cause for this failure is related to the neglect of the carriers\u27 drift energy and to the collision-dominated assumptions typically used in the development of simplified transport models
Using self-consistent calculations of million-atom Schrodinger-Poisson equations, we investigate the...
The on-current and its ballistic limit for MOSFETs designed according to the 2003 International Tech...
The International Roadmap for Semiconductors has predicted that starting from the 45-nm technology ...
The formidable progress in microelectronics in the last decade has pushed the channel length of MOSF...
The current voltage characteristics of the silicon ballisticMOSFETs are introduced and discussed. Th...
The performance limits of carbon nanotube field-effect transistors ~CNTFETs! are examined theoretica...
The current voltage characteristics of the silicon ballistic MOSFETs are introduced and discussed. T...
The performance limits of carbon nanotube field-effect transistors (CNTFETs) are examined theoretica...
The ballistic transport of the carriers is predicted when the channel length of the transistor is le...
In this paper, the ballistic and quasi-ballistic transport characteristics of Sub-30 nm double gate ...
Due to the rapid decrease in device dimensions the well-established TCAD tools are pushed to the lim...
In this paper, and in Part II, Monte Carlo (MC) simulations including quantum corrections to the pot...
In this paper, and in Part II, Monte Carlo (MC) simulations including quantum corrections to the pot...
In this paper, and in Part II, Monte Carlo (MC) simulations including quantum corrections to the pot...
The International Roadmap for Semiconductors has predicted that starting from the 45-nm technology ...
Using self-consistent calculations of million-atom Schrodinger-Poisson equations, we investigate the...
The on-current and its ballistic limit for MOSFETs designed according to the 2003 International Tech...
The International Roadmap for Semiconductors has predicted that starting from the 45-nm technology ...
The formidable progress in microelectronics in the last decade has pushed the channel length of MOSF...
The current voltage characteristics of the silicon ballisticMOSFETs are introduced and discussed. Th...
The performance limits of carbon nanotube field-effect transistors ~CNTFETs! are examined theoretica...
The current voltage characteristics of the silicon ballistic MOSFETs are introduced and discussed. T...
The performance limits of carbon nanotube field-effect transistors (CNTFETs) are examined theoretica...
The ballistic transport of the carriers is predicted when the channel length of the transistor is le...
In this paper, the ballistic and quasi-ballistic transport characteristics of Sub-30 nm double gate ...
Due to the rapid decrease in device dimensions the well-established TCAD tools are pushed to the lim...
In this paper, and in Part II, Monte Carlo (MC) simulations including quantum corrections to the pot...
In this paper, and in Part II, Monte Carlo (MC) simulations including quantum corrections to the pot...
In this paper, and in Part II, Monte Carlo (MC) simulations including quantum corrections to the pot...
The International Roadmap for Semiconductors has predicted that starting from the 45-nm technology ...
Using self-consistent calculations of million-atom Schrodinger-Poisson equations, we investigate the...
The on-current and its ballistic limit for MOSFETs designed according to the 2003 International Tech...
The International Roadmap for Semiconductors has predicted that starting from the 45-nm technology ...