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Investigation on the Effects of Gate-Source Overlap/Underlap and Source Doping Gradient of <i>n</i>-Type Si Cylindrical Gate-All-Around Tunnel Field-Effect Transistors

Keng-Ming Liu, Ching-Ping Cheng

2020IEEE Transactions on Nanotechnology29 citationsDOI

Abstract

Tunnel field-effect transistor (TFET) has been considered as one of the promising next-generation transistors due to its potentially limit-breaking low subthreshold swing. In this work, we comprehensively examined the effects of the gate-source (G-S) overlap/underlap and the source doping gradient (SDG) of the n-type Si cylindrical gate-all-around (GAA) TFET by the TCAD tools. The simulation results indicate that the G-S overlapping structure has superior device performance than the G-S underlapping structure. However, increasing the G-S overlapping length does not further improve the device performance. Besides, SDG hardly affects the device characteristics of the G-S overlapping TFETs and for the G-S underlapping TFETs, larger SDG can mend the device performance.

Topics & Concepts

Subthreshold swingTransistorOptoelectronicsLogic gateDopingField-effect transistorSubthreshold conductionPhysicsMaterials scienceElectrical engineeringEngineeringVoltageAdvancements in Semiconductor Devices and Circuit DesignSemiconductor materials and devicesIntegrated Circuits and Semiconductor Failure Analysis
Investigation on the Effects of Gate-Source Overlap/Underlap and Source Doping Gradient of <i>n</i>-Type Si Cylindrical Gate-All-Around Tunnel Field-Effect Transistors | Litcius