Analyzing Work Function Dependency for Doping Variations in Double Gate Junction Less Field Effect Transistor: A TCAD Simulation Perception

Panchita Saikia; Apurba Kumar Raibaruah; Kaushik Chandra Deva Sarma

doi:10.47392/IRJAEH.2024.0328

Authors

Panchita Saikia Department of Instrumentation Engineering, CIT Kokrajhar, Kokrajhar -Assam, 783370, India. Author
Apurba Kumar Raibaruah Department of Instrumentation Engineering, CIT Kokrajhar, Kokrajhar-Assam, 783370, India. Author
Kaushik Chandra Deva Sarma Department of Instrumentation Engineering, CIT Kokrajhar, Kokrajhar-Assam, 783370, India. Author

DOI:

https://doi.org/10.47392/IRJAEH.2024.0328

Keywords:

Doping profile, Junctionless Field Effect Transistor, On Current, Subthreshold swing, Threshold Voltage

Abstract

In this investigation, we present effect of work function on variation of electrical performance of conventional Double Gate Junctionless Field Effect Transistor (DGJLFET) for various range of doping profiles. By using TCAD simulator, the impact of doping concentrations spanning from 10¹⁰ cm^-3 to 10¹⁹ cm^-3 and work functions of 5.0 eV, 5.2 eV, and 5.4 eV is comprehensively explored. In this work the electrical parameters including threshold voltage, On Current, Off Current, On Current to Off Current ratio, and Subthreshold Swings are analyzed for each work function setting. Results indicate an interrelationship between higher doping levels and increased On Current, alongside a reduction in Subthreshold Swing. Notably, at a work function of 5.4 eV and a doping concentration of 10¹⁹ cm^-3 threshold voltage obtained is 0.71 V, I_ON/I_OFFis 3.75 and Subthreshold Swing is 75 mV/decade are accomplished demonstrating the potential for optimized transistor performance through work function engineering.