摘要
Silicon on insulator (SOI) technology permits a good solution to the miniaturization as the MOSFET size scales down. This paper is about to compare the electrical performance of nanoscale FD-SOI MOSFET at various gate lengths. The performance is compared and contrasted with the help of threshold voltage, subthreshold slope, on-state current and leakage current. Interestingly, by decreasing the gate length, the leakage current and on-state current are increased but the threshold voltage is decreased and the sub-threshold slope is degraded. Silvaco two-dimensional simulations are used to analyze the performance of the proposed structures.
Silicon on insulator (SOI) technology permits a good solution to the miniaturization as the MOSFET size scales down. This paper is about to compare the electrical performance of nanoscale FD-SOI MOSFET at various gate lengths. The performance is compared and contrasted with the help of threshold voltage, subthreshold slope, on-state current and leakage current. Interestingly, by decreasing the gate length, the leakage current and on-state current are increased but the threshold voltage is decreased and the sub-threshold slope is degraded. Silvaco two-dimensional simulations are used to analyze the performance of the proposed structures.
作者
Towhid Adnan Chowdhury
Towhid Adnan Chowdhury(Department of Electrical & Electronic Engineering, Ahsanullah University of Science & Technology, Dhaka, Bangladesh)