The effect of non-parabolic energy-bands on the electrical properties of an In0.53Ga0.47As/In0.52Al0.48As superlattice FET has been investigated. An energy dependent effective mass was fitted on k · p simulation results and the new band model was implemented into a self-consistent Schrödinger-Poisson solver. This analysis has shown that non-parabolicity effects lead to noticeable changes of the device characteristics with respect the parabolic band model, namely: an increase of the on-state current and a steeper transition from the off- to the on-state sustained across several decades of current, at the expense of an increased off-state leakage. Moreover, the larger density of states in the non-parabolic model causes a 47% growth of the output conductance at low VDS, as well as an increased drain conductance in saturation.
Maiorano, P., Gnani, E., Grassi, R., Gnudi, A., Reggiani, S., Baccarani, G. (2014). Investigation on the electrical properties of superlattice FETs using a non-parabolic band model. SOLID-STATE ELECTRONICS, 98, 45-49 [10.1016/j.sse.2014.04.010].
Investigation on the electrical properties of superlattice FETs using a non-parabolic band model
P. Maiorano;E. Gnani;R. Grassi;A. Gnudi;S. Reggiani;G. Baccarani
2014
Abstract
The effect of non-parabolic energy-bands on the electrical properties of an In0.53Ga0.47As/In0.52Al0.48As superlattice FET has been investigated. An energy dependent effective mass was fitted on k · p simulation results and the new band model was implemented into a self-consistent Schrödinger-Poisson solver. This analysis has shown that non-parabolicity effects lead to noticeable changes of the device characteristics with respect the parabolic band model, namely: an increase of the on-state current and a steeper transition from the off- to the on-state sustained across several decades of current, at the expense of an increased off-state leakage. Moreover, the larger density of states in the non-parabolic model causes a 47% growth of the output conductance at low VDS, as well as an increased drain conductance in saturation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
