In this work we propose a novel device concept with nearly ideal switching properties: i) a sustained inverse switching-slope as small as 3 mV/dec at room temperature; ii) no appreciable degradation of the on-current and, iii) a large output conductance at low drain voltage, which represents an essential property for rail-to-rail switching in logic applications. These extraordinary properties could posibly be achieved by shaping the density of states in the conduction band so as to generate a first subband with a small energy extension, and a second subband widely displaced in energy, so that its contribution to the drain current is negligible. Computer simulations accounting for the idealized band structure depicted thus far confirm the steep-slope turn-on characteristics of this ideal device, and give an insight on the optimal band-structure parameters.
Steep-Slope Nanowire Field-Effect Transistor (SS-NWFET) / E. Gnani; A. Gnudi; S. Reggiani; G. Baccarani. - STAMPA. - (2010), pp. 5604567.69-5604567.72. (Intervento presentato al convegno International Conference on Simulation of Semiconductor Processes and Devices (SISPAD 2010) tenutosi a Bologna nel 6-8 September) [10.1109/SISPAD.2010.5604567].
Steep-Slope Nanowire Field-Effect Transistor (SS-NWFET)
GNANI, ELENA;GNUDI, ANTONIO;REGGIANI, SUSANNA;BACCARANI, GIORGIO
2010
Abstract
In this work we propose a novel device concept with nearly ideal switching properties: i) a sustained inverse switching-slope as small as 3 mV/dec at room temperature; ii) no appreciable degradation of the on-current and, iii) a large output conductance at low drain voltage, which represents an essential property for rail-to-rail switching in logic applications. These extraordinary properties could posibly be achieved by shaping the density of states in the conduction band so as to generate a first subband with a small energy extension, and a second subband widely displaced in energy, so that its contribution to the drain current is negligible. Computer simulations accounting for the idealized band structure depicted thus far confirm the steep-slope turn-on characteristics of this ideal device, and give an insight on the optimal band-structure parameters.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
