Impact of technology scaling on analog and RF performance of SOI–TFET
P Kumari, S Dash and G P Mishra
Advances in Natural Sciences: Nanoscience and Nanotechnology, Volume 6, Number 4
Advances in Natural Sciences: Nanoscience and Nanotechnology, Volume 6, Number 4
Published 9 October 2015
Abstract
This paper presents both the analytical and simulation study of analog and RF performance for single gate semiconductor on insulator tunnel field effect transistor in an extensive manner. Here 2D drain current model has been developed using initial and final tunneling length of band-to-band process. The investigation is further extended to the quantitative and comprehensive analysis of analog parameters such as surface potential, electric field, tunneling path, and transfer characteristics of the device. The impact of scaling of gate oxide thickness and silicon body thickness on the electrostatic and RF performance of the device is discussed. The analytical model results are validated with TCAD Sentaurus device simulation results [read more...]
Citations
[1] Extensive electrostatic investigation of workfunction-modulated SOI tunnel FETs Subhrasmita Panda et al 2016 Journal of Computational Electronics 15 1326
[2] S. Sahoo et al 2016 337
[3] A comprehensive investigation of silicon film thickness (T SI) of nanoscale DG TFET for low power applications Rajeev Ranjan et al 2016 Advances in Natural Sciences: Nanoscience and Nanotechnology 7 03500
[4] A complete analytical potential based solution for a 4H-SiC MOSFET in nanoscale M K Yadav et al 2016 Advances in Natural Sciences: Nanoscience and Nanotechnology 7 025011
[5] S. Dash et al 2015 447