Analytical modeling of subthreshold current and subthreshold swing of short-channel triple-material double-gate (TM-DG) MOSFETs

An analytical model for subthreshold current and subthreshold swing of short-channel triple-material double-gate (TM-DG) MOSFETs is presented in this paper. Both the drift and diffusion components of current densities are considered for the modeling of subthreshold current. Virtual cathode concept of DG MOSFETs is utilized to model the subthreshold swing of TM-DG MOSFETs. The effect of different length ratios of the three channel regions under three different gate materials of device on the subthreshold current and subthreshold swing of the short-channel TM-DG MOSFETs have been discussed. The dependencies of subthreshold current and subthreshold swing on various device parameters have been studied. The simulation data obtained by using the commercially available 2D device simulation software ATLAS™ has been used to validate the present model.

► Analytical model is presented for subthreshold current of short-channel TMDG MOSFETs. ► Analytical model is presented for subthreshold swing of short-channel TMDG MOSFETs. ► Theoretical results are well matched with ATLAS simulation data.