Title of article :
Design, simulation and analysis of high-K gate dielectric FinField effect transistor
Author/Authors :
Aditya ، Marupaka Department of Electronics and Communication Engineering - MEMS Research Center - KoneruLakshmaiah Education Foundation (Deemed to be University) , Rao ، Karumuri Srinivasa Department of Electronics and Communication Engineering - MEMS Research Center - KoneruLakshmaiah Education Foundation (Deemed to be University) , Sravani ، KondaviteeGirija Department of Electronics and Communication Engineering - MEMS Research Center - KoneruLakshmaiah Education Foundation (Deemed to be University) , Guha ، Koushik Department of Electronics and Communication Engineering - National MEMS Design Center - National Institute of Technology
Abstract :
The devices with additional gates like Fin Field effect transistor (FinFET) provide higher control on subthreshold parameters and are favorable for Ultra large-scale integration. Also, these structures provide high control on current through the channel and with minimum leakage. In this paper we designed a FinFET with high-K gate dielectric material i.e Hafnium oxide as gate oxide. A comparison of similar sized transistor with Air and Silicon dioxide as gate material is performed. The comparison is mainly in terms of performance parameters like transconductance, subthreshold slope, and drain current characteristics. There is an increase in ON current on using a high-K dielectric material and subsequently an improvement in other parameters like subthreshold slope, transconductance and intrinsic gain.
Keywords :
FinFET , Hafnium Oxide , High , K Dielectric , Subthreshold Slope , Transconductance
Journal title :
International Journal of Nano Dimension (IJND)
Journal title :
International Journal of Nano Dimension (IJND)
