Study of digital/analog performance parameters of misaligned gate recessed double gate junctionless field-effect-transistor for circuit level application

Abstract: In this work, the effect of gate misalignment towards the source and drain ends for 20 nm recessed double gate junctionless field-effect-transistor (R_DGJLFET) have been studied on various digital and analog performance parameters from device to circuit level while setting the simulation set-up using 2-D Silvaco ATLAS TCAD. With recessed silicon channel, the quantum confinement effects have been considered for channel thickness < 7 nm. In comparison to conventional double gate junctionless FET (C_DGJLFET), … Show more

“…4 In our previous work, this issue has been addressed with a recently proposed recessed double gate JLFET (R_DGJLFET) which has shown remarkably enhanced performance with improved gate control at both device and circuit levels. [19][20][21] However, the analytical model for R_DGJLFET still needs to be developed to the best of our knowledge. Hence, in this work, we have presented an analytical model used the recently proposed R_DGJLFET operating in the subthreshold region.…”

“…From the literature, it has been concluded that in the sub‐20 nm regime, the performance of JLFETs also starts degrading resulting in increased OFF‐state leakage and SCEs 4 . In our previous work, this issue has been addressed with a recently proposed recessed double gate JLFET (R_DGJLFET) which has shown remarkably enhanced performance with improved gate control at both device and circuit levels 19–21 . However, the analytical model for R_DGJLFET still needs to be developed to the best of our knowledge.…”

Analytical modeling of recessed double gate junctionless field‐effect‐transistor in subthreshold region

“…4 In our previous work, this issue has been addressed with a recently proposed recessed double gate JLFET (R_DGJLFET) which has shown remarkably enhanced performance with improved gate control at both device and circuit levels. [19][20][21] However, the analytical model for R_DGJLFET still needs to be developed to the best of our knowledge. Hence, in this work, we have presented an analytical model used the recently proposed R_DGJLFET operating in the subthreshold region.…”

“…From the literature, it has been concluded that in the sub‐20 nm regime, the performance of JLFETs also starts degrading resulting in increased OFF‐state leakage and SCEs 4 . In our previous work, this issue has been addressed with a recently proposed recessed double gate JLFET (R_DGJLFET) which has shown remarkably enhanced performance with improved gate control at both device and circuit levels 19–21 . However, the analytical model for R_DGJLFET still needs to be developed to the best of our knowledge.…”

Analytical modeling of recessed double gate junctionless field‐effect‐transistor in subthreshold region

Design and Analysis of Recessed Double Gate Junctionless Field-Effect-Transistor Based Digital Standard Cells

Sensitivity Investigation of Planer Ground Plane Junctionless Transistor (GP-JLT) for UVA Photodetector