Add to ORKGSurface potential is a key parameter in evaluating the DC property of thin-film transistors (TFTs). In this paper, for the junctionless symmetric double-gate polysilicon TFTs, a physical-based explicit calculation to surface potential has been derived. Incorporating impurity concentration, mobile charge and trap density into Poisson\u27s equation, a closed form of band bending as a function of gate voltage is obtained and demonstrated as an accurate and computationally efficient solution. Based on surface potential, a drain current model for long-channel devices is provided in explicit forms. Furthermore, it is verified successfully by comparisons with both 2D numerical simulation and experimental data in different operation regions
A computation efficient yet accurate surface potential-based analytic model for the symmetric double...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
A Computation efficient yet accurate surface potential-based analytic model for the symmetric double...
Surface potential is a key parameter in evaluating the DC property of thin-film transistors (TFTs). ...
A physics-based compact model for double-gate polysilicon thin-film transistors (TFTs) with a doped ...
An analytical surface potential based universal model for the drain current voltage characteristics ...
An analytic surface potential based non-charge-sheet model for poly-silicon thin film transistors (p...
An analytical surface-potential-based drain current model of symmetric double-gate (sDG) MOSFETs is ...
A surface potential-based model for undoped symmetric double-gate MOSFETs is derived by solving Pois...
Surface potential is one key variable in DG MOSFET compact modeling. A complete surface potential ve...
Surface potential is one key variable in DG MOSFET compact modeling. A complete surface potential ve...
A Transistor model with bulk current is proposed in this article for long channel dual material doub...
In this paper, a rigorous surface potential-based core undoped symmetric Double-Gate Metal-Oxide- Se...
In this paper, a rigorous surface potential-based core undoped symmetric Double-Gate Metal-Oxide-Sem...
We propose a surface potential-based polycrystalline silicon thin-film transistors (poly-Si TFTs) co...
A computation efficient yet accurate surface potential-based analytic model for the symmetric double...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
A Computation efficient yet accurate surface potential-based analytic model for the symmetric double...
Surface potential is a key parameter in evaluating the DC property of thin-film transistors (TFTs). ...
A physics-based compact model for double-gate polysilicon thin-film transistors (TFTs) with a doped ...
An analytical surface potential based universal model for the drain current voltage characteristics ...
An analytic surface potential based non-charge-sheet model for poly-silicon thin film transistors (p...
An analytical surface-potential-based drain current model of symmetric double-gate (sDG) MOSFETs is ...
A surface potential-based model for undoped symmetric double-gate MOSFETs is derived by solving Pois...
Surface potential is one key variable in DG MOSFET compact modeling. A complete surface potential ve...
Surface potential is one key variable in DG MOSFET compact modeling. A complete surface potential ve...
A Transistor model with bulk current is proposed in this article for long channel dual material doub...
In this paper, a rigorous surface potential-based core undoped symmetric Double-Gate Metal-Oxide- Se...
In this paper, a rigorous surface potential-based core undoped symmetric Double-Gate Metal-Oxide-Sem...
We propose a surface potential-based polycrystalline silicon thin-film transistors (poly-Si TFTs) co...
A computation efficient yet accurate surface potential-based analytic model for the symmetric double...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
A Computation efficient yet accurate surface potential-based analytic model for the symmetric double...