A novel multiple-gate polycrystalline silicon nanowire transistor featuring an inverse-T gate

Abstract

A novel multiple-gate field-effect transistor with poly-Si nanowire (NW) channels is proposed and fabricated using a simple process flow. In the proposed structure, poly-Si NW channels are formed with sidewall spacer etching technique, and are surrounded by an inverse-T-gate and a top gate. When the two gates are connected together to drive the NW channels, dramatic performance enhancement as compared with the cases of single-gate operation is observed. Moreover, subthreshold swing as low as 103 mV/dec at Vd = 2 V is recorded. Function of using the top gate bias to modulate the threshold voltage of device operation driven by the inverse-T gate biases is also investigated in this letter.