G H Nayana scite author profile

Monolayer and bilayer graphene field effect transistor modeling is presented in this paper. The transport model incorporated, works well for both drift diffusive and ballistic conditions. The validity of the model was checked for various device dimensions and bias voltages. Performance parameters affecting operation of graphene field effect transistor in various region of operation are optimized. Model was developed to verify transfer characteristics for monolayer and bilayer graphene field effect transistor. Results obtained prove the ambipolar property in Graphene. MATLAB is used for numerical modeling for systematic performance evaluation of parameters in graphene. The tool used to simulate the characteristics is cadence Verilog-A which describe analog component structure.

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Prospects of Two Dimensional Graphene as Field Effect Transistor for future electronic devices

Nayana

Vimala

2020

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TCAD Simulation Study of Source and Gate Material-Engineered Double Gate Tunnel Field Effect Transistor

Nayana¹,

Sharma²

2021

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Boosting on Current Using Various Source Material for Dual Gate Tunnel Field Effect Transistor

Priyadarshini¹,

Nayana²,

Vimala³

2021

JONNE

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Tunnel Field Effect Transistors (TFET) have demonstrated to have likely applications in the cutting-edge low force and super low force semiconductors to substitute the conventional FETs. TFET will be able to provide steep inverse subthreshold swing slope also maintaining a low leakage current, making it an essential structure for limiting the power consumption in Metal Oxide Semiconductor FETs.In this paper, we are simulating different structures of TFET by varying source material to boost the ON current of the device. The different models are designed and simulated using Silvaco TCAD simulator and transfer characteristics are studied.

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G H Nayana

Simulation insights of a new dual gate graphene nano-ribbon tunnel field-effect transistors for THz applications

Monolayer and bilayer graphene field effect transistor using Verilog-A

Prospects of Two Dimensional Graphene as Field Effect Transistor for future electronic devices

TCAD Simulation Study of Source and Gate Material-Engineered Double Gate Tunnel Field Effect Transistor

Boosting on Current Using Various Source Material for Dual Gate Tunnel Field Effect Transistor

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