Electrical characterization and TCAD simulations of multi-gate bulk nMOSFET

A multi-gate nMOSFET in bulk CMOS process has been fabricated by integration of polysilicon-filled trenches. We have simulated its electrical characteristics by using TCAD software and compared them with results obtained from electrical measurements. The threshold voltage and the subthreshold slope of the top gate have been extracted and we found a good accordance, for both parameters, between the measurements (V_TH=0.59 V, S=90 mV/dec) and simulations (V_TH=0.50 V, S=92 mV/dec). The surface channel effective mobility of this multi-gate MOSFET was extracted and evaluated with both effective length and surface. The studies revealed that mobility degraded towards smaller dimensions of the MOS channel. At last, the Si/SiO₂ interface quality studies were carried out. We noticed that the injected donor traps have a larger influence on the current–voltage characteristics than acceptor-like traps. With its good electrical performances, this low-cost multi-gate MOSFET technology presents interesting perspective in CMOS image sensors and more generally in analog application taking benefit of the multi-threshold for example.