Floating Fin Shaped Stacked Nanosheet MOSFET for Low Power Logic Application

In this paper, floating fin structured vertically stacked nanosheet gate-all-around (GAA) metal oxide semiconductor field-effect transistor (FNS) is proposed for low power logic device applications. To verify the electrical performance of the proposed device, three-dimensional (3-D) technology computer-aided design (TCAD) device/circuit simulations are performed with calibrated device model parameters. As a result, it is found that gate propagation delay $({\tau }_{\mathrm{ delay}})$ and dynamic power $(P_{\mathrm{ dyn}})$ are improved by 8% and 19%. respectively as compared to conventional vertically stacked lateral nanosheet (LNS). Through the rigorous analysis on the resistance and capacitance components of FNS and LNS, it is clearly revealed that the ${\tau }_{\mathrm{ delay}}$ and $P_{\mathrm{ dyn}}$ are improved at the same $P_{\mathrm{ dyn}}$ (50 $\mu \text{W}$ ) and ${\tau }_{\mathrm{ delay}}$ (187 GHz) by the reduced effective capacitance which results from the diminished gate-to-sorece/drain overlap area. Based on the TCAD simulation studies, it is expected that the FNS is suitable for next generation logic digital applications.