For the first time, we investigate the temperature effect on AIGaAs/Si based hetero-structure junction- less double gate tunnel field effect transistor. Since junctionless tunnel FET is an alternative substitute devic...For the first time, we investigate the temperature effect on AIGaAs/Si based hetero-structure junction- less double gate tunnel field effect transistor. Since junctionless tunnel FET is an alternative substitute device for ultra scaled deep-submicron CMOS technology, having very good device characteristics such as an improved sub- threshold slope (〈 60 mV/decade at 300 K) and very small static leakage currents. The improved subthreshold slope and static leakage current confirms that it will be helpful for the development of future low power switching circuits. The 2-D computer based simulation results show that OFF-state leakage current is almost temperature independent for the proposed device structure.展开更多
文摘For the first time, we investigate the temperature effect on AIGaAs/Si based hetero-structure junction- less double gate tunnel field effect transistor. Since junctionless tunnel FET is an alternative substitute device for ultra scaled deep-submicron CMOS technology, having very good device characteristics such as an improved sub- threshold slope (〈 60 mV/decade at 300 K) and very small static leakage currents. The improved subthreshold slope and static leakage current confirms that it will be helpful for the development of future low power switching circuits. The 2-D computer based simulation results show that OFF-state leakage current is almost temperature independent for the proposed device structure.
