Effect of Au-Al Dual-Metal Gate on 3D Double-Gate Junctionless Transistor Performance

In this paper field effect transistors (FETs) with new materials and new structures are discussed. A thermal robust HfN/HfO 2 gate stack, which can alleviate the confliction between high quality high k material and low EOT, is investigated. EOT of the gate stack can be scaled down to 0.65nm for MOS capacitor and 0.95nm for MOSFET with higher carrier mobility. A new dual metal gate/high k CMOS integration process was demonstrated based on a dummy HfN technique for better high k quality and metal gate integration. Several new double gate FETs are proposed and investigated, including vertical double gate device with an asymmetric graded lightly doped drain (AGLDD) for better short channel behavior, self-aligned electrically separable double gate device for dynamic threshold voltage operation, new 3-D CMOS inverter based on double gate structure and SOI substrate for compact configuration and new full-symmetric DGJFET for 10nm era with greatly relaxed requirement of silicon film thickness and device design simplification.

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Analytical Modeling of Inversion Charge Density for Nanoscale Dual Metal Gate (Hf/AlNx) and Midgap Symmetric Double Gate MOSFET

Journal of Nanoelectronics and Optoelectronics ◽

10.1166/jno.2009.1053 ◽

2010 ◽

Vol 4 (3) ◽

pp. 370-378 ◽

Cited By ~ 1

Author(s):

S. K. Vishvakarma ◽

A. K. Saxena ◽

S. Dasgupta

Keyword(s):

Charge Density ◽

Analytical Modeling ◽

Double Gate ◽

Metal Gate ◽

Inversion Charge ◽

Double Gate Mosfet ◽

Dual Metal

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Hetero - Gate Oxide Dual Metal Vertical Tunnel FET

10.21203/rs.3.rs-160651/v1 ◽

2021 ◽

Author(s):

Priyanka Karmakar ◽

P K Sahu

Keyword(s):

Gate Oxide ◽

Double Gate ◽

Subthreshold Slope ◽

Device Design ◽

Metal Gate ◽

Tunneling Barrier ◽

Tunnel Fet ◽

Dc Characteristics ◽

Dual Metal ◽

Silicon Based

Abstract A Silicon based Vertical Dual metal Double gate Tunnel FET (Si-VDMDGTFET) has been proposed and simulated in Sentaurus TCAD tool with improved DC and analog/RF characteristics. The vertical In-line tunneling dominates in the proposed device which results in better subthreshold slope (SS). The vertical in-line tunneling tunes the tunneling barrier and eventually controls the ON current. The dual metal gate and the heterogeneous gate stack oxide within the proposed device design gives the mouldability for controlling and improving the DC characteristics such as ON current, OFF current. The analog/RF behaviour of the proposed device has been calculated and compared with conventional lateral Silicon based dual metal double gate Tunnel FET furthermore it is seen that the proposed device outperforms the conventional lateral device.

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