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A Technological Review on Quantum Ballistic Transport Model Based Silicon Nanowire Field Effect Transistors for Circuit Simulation and Design

Mayank Chakraverty, Kinshuk Gupta, Vinay G Babu, Vaibhav Meshra Meshram

Abstract


Nanowire MOSFETs are recognized as one of the most promising candidates to extend Moore’s law into nanoelectronics era. This paper reviews the process, application, device physics and compact modeling of Gate All around (GAA) nanowire MOSFETs. The most widely used methods of nanowire synthesis have been discussed. The paper presents the various device optimization techniques and scaling potential of nanowire transistors. A process sensitivity study of silicon nanowire transistors at the end of the paper justifies the theory of nanowire FETs to carry forward the downscaling of MOSFETs in the sub-10 nm regime.

 

 

Keywords: Nanowire, scaling, MOSFET, VLS, nanoelectronics, short channel effects (SCEs), density of states, SiNWFET  

 

Cite this Article

 

Chakraverty Mayank, Gupta Kinshuk, Babu Vinay G. et al. A Technological Review on Quantum Ballistic Transport Model Based Silicon Nanowire Field Effect Transistors for Circuit Simulation and Design. Journal of Nanoscience, Nanoengineering and Applications. 2015; 5(2): 20–31p.


Keywords


Nanowire, scaling, MOSFET, VLS, nanoelectronics, short channel effects (SCEs), density of states, SiNWFET

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