Add to ORKGAbstract: This paper presents an analytical surface potential model for pocket implanted sub-100 nm n-MOSFET. The model is derived by solving the Poisson's equation in the depletion region at the surface with the appropriate boundary conditions at source and drain. The model includes the effective doping concentration of the two linear pocket profiles at the source and drain sides of the device. The model also incorporates the drain and substrate bias effect below and above threshold conditions. The simulation results show that the derived surface potential model has a simple compact form that can be utilized to study and characterize the pocket implanted advanced ULSI devices
Laterally non-uniformly doped 0.1-μm pocket n-MOSFETs satisfying specifications of off-state current...
An analytic potential-based model for the undoped surrounding-gate MOSFETs is derived in the paper. ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
This paper presents a threshold voltage model of pocket implanted sub-100 nm n-MOSFETs incorporating...
Abstract: This paper presents an analytical subthreshold drain current model for pocket implanted na...
An analytical drain current model is presented for NMOSFETs with pocket implantation. An effective d...
Carrier scatterings in the inversion channel of MOSFET dominates the carrier mobility and hence drai...
An analytical drain current model is presented for NMOSFETs with pocket implantation. An effective d...
This paper presents an analytical threshold voltage and drain current model for pocket implanted DMG...
An analytical subthreshold current model for metal oxide semiconductor field effect transistors (MOS...
An analytical subthreshold current model for metal oxide semiconductor field effect transistors (MOS...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
This paper presents an algorithm based approach for TFET (Tunnel Field Effect Transistor) design. A ...
This paper reviews present compact model development and outlines the main features of the PUNISM, a...
Laterally non-uniformly doped 0.1-μm pocket n-MOSFETs satisfying specifications of off-state current...
An analytic potential-based model for the undoped surrounding-gate MOSFETs is derived in the paper. ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
This paper presents a threshold voltage model of pocket implanted sub-100 nm n-MOSFETs incorporating...
Abstract: This paper presents an analytical subthreshold drain current model for pocket implanted na...
An analytical drain current model is presented for NMOSFETs with pocket implantation. An effective d...
Carrier scatterings in the inversion channel of MOSFET dominates the carrier mobility and hence drai...
An analytical drain current model is presented for NMOSFETs with pocket implantation. An effective d...
This paper presents an analytical threshold voltage and drain current model for pocket implanted DMG...
An analytical subthreshold current model for metal oxide semiconductor field effect transistors (MOS...
An analytical subthreshold current model for metal oxide semiconductor field effect transistors (MOS...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
This paper presents an algorithm based approach for TFET (Tunnel Field Effect Transistor) design. A ...
This paper reviews present compact model development and outlines the main features of the PUNISM, a...
Laterally non-uniformly doped 0.1-μm pocket n-MOSFETs satisfying specifications of off-state current...
An analytic potential-based model for the undoped surrounding-gate MOSFETs is derived in the paper. ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...