Symmetric dual gate insulator-based FinFET module and design window for reliable circuits

被引：1

作者：

Yadav, Nandakishor ^{[1
]}

Shah, Ambika Prasad ^{[1
]}

Beohar, Ankur ^{[1
]}

Vishvakarma, Santosh Kumar ^{[1
]}

机构：

[1] Indian Inst Technol, Discipline Elect Engn, Indore, Madhya Pradesh, India

来源：

MICRO & NANO LETTERS | 2019年 / 14卷 / 03期

关键词：

leakage currents; MOSFET; high-k dielectric thin films; design window; gate insulator materials; dual layer gate insulator; gate oxide; conventional FinFET; high-k spacer width; SCT tolerant design; back-gate voltages; circuit design; short-channel effect reduction; high-k spacer materials; symmetric dual gate insulator-based FinFET module; electrostatic control enhancement; charge trap tolerant FinFET module; gate leakage current; single charge trapping induce effects; SCT analysis; process variation sources; line width roughness; line edge roughness; size; 10; 0; nm; RANDOM TELEGRAPH NOISE; SRAM; DEVICES; IMPACT;

D O I：

10.1049/mnl.2018.5210

中图分类号：

TB3 [工程材料学];

学科分类号：

0805 ; 080502 ;

摘要：

High-k spacer and gate insulator materials have been exhaustively studied nowadays for the enhancement of electrostatic control and reduction of short-channel effects in scaled devices. The work presents a high-performance and charge trap tolerant FinFET module at 10 nm gate length. Dual layer gate insulator (inner low-k and outer high-k) introduces to reduce charge trapping from the channel and outside into the gate oxide. It reduces the gate leakage current by 51.6% compared to conventional FinFET. Further, they demonstrate single charge trapping (SCT) induce effects and proposed optimised high-k spacer width of the SCT tolerant design. SCT analysis is presented in different high-k spacer materials and back-gate voltages. Process variation sources such as line edge roughness and line width roughness are also analysed for the circuit design.

引用

页码：317 / 322

页数：6

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