In this work we report the main results of a research activity on a novel device concept which aims to achieve a steep switching behavior based on the filtering of high-energy electrons in the FET source region. The filtering function is entrusted to a superlattice in the source extension, which could possibly be fabricated by depositing a number of appropriate semiconductor layers within the manufacturing process of vertical nanowires. Simulation results indicate that a sustained inverse switching slope SS = 26 mV/dec can be achieved using GaAs/AlGaAs as the constituent materials of the superlattice, and that an on-current ION = 0.5 mA/lm can be obtained at VGS = VDS = 0.4 V by a careful optimization of the superlattice geometry. Further improvements are expected by an appropriate choice of the semiconductor pairs.
E. Gnani, S. Reggiani, A. Gnudi, G. Baccarani (2011). Steep-Slope Nanowire FET with a Superlattice in the Source Extension. SOLID-STATE ELECTRONICS, 65-66, 108-113 [10.1016/j.sse.2011.06.008].
Steep-Slope Nanowire FET with a Superlattice in the Source Extension
GNANI, ELENA;REGGIANI, SUSANNA;GNUDI, ANTONIO;BACCARANI, GIORGIO
2011
Abstract
In this work we report the main results of a research activity on a novel device concept which aims to achieve a steep switching behavior based on the filtering of high-energy electrons in the FET source region. The filtering function is entrusted to a superlattice in the source extension, which could possibly be fabricated by depositing a number of appropriate semiconductor layers within the manufacturing process of vertical nanowires. Simulation results indicate that a sustained inverse switching slope SS = 26 mV/dec can be achieved using GaAs/AlGaAs as the constituent materials of the superlattice, and that an on-current ION = 0.5 mA/lm can be obtained at VGS = VDS = 0.4 V by a careful optimization of the superlattice geometry. Further improvements are expected by an appropriate choice of the semiconductor pairs.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
