Asyammetric gate oxide thickness technology for reduction of Gate Induced Drain Leakage current in nanoscale single gate SOI MOSFET

机译：浅栅极氧化物厚度技术，用于减少纳米级别栅极SOI MOSFET中的栅极感应漏极漏电流

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Gate Induced Drain Leakage (GIDL) current is one of the main leakage current components in Silicon on Insulator (SOI) MOSFET structures and plays an important role in data retention time of DRAM cells. GIDL can dominate the drain leakage current at zero bias and will limit the scalability of the structure for low power applications. In this paper we propose a novel technique for reducing GIDL and hence off-state current in the nanoscale single gate SOI MOSFET structure. The proposed structure employs an asymmetric gate oxide thickness which can reduce GIDL current. There is 98% reduction in Ioff value in comparison with the symmetric gate oxide thickness structure, without sacrificing driving current and losing gate control over the channel. This technique is very simple in fabrication point of view in CMOS technology

机译：栅极感应漏极泄漏（GID1）电流是绝缘体上的硅中的主漏电流分量之一（SOI）MOSFET结构，在DRAM单元的数据保留时间中起重要作用。 GIDL可以将漏极漏电流占主导地位为零偏置，并将限制低功耗应用的结构的可扩展性。在本文中，我们提出了一种用于减少GID1的新技术，从而提出了纳米级单门SOI MOSFET结构中的断开状态电流。所提出的结构采用不对称的栅极氧化物厚度，其可以减少GIDL电流。与对称栅极氧化物厚度结构相比，I OFF 值减少98％，而不牺牲驱动电流并在通道上丢失栅极控制。 CMOS技术的制造地点是这种技术非常简单

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《Conference on Optoelectronic and Microelectronic Materials Devices》|2008年||共4页
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Fathipour Morteza; Kohani Fatemeh; Ahangari Zahra;
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中图分类 TN2-53;
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Band To Band Tunnelling (BTBT); DRAM cells; Gate Induced Drain Leakage(GIDL);

机译：频段到带隧道（BTBT）;DRAM细胞;栅极感应排水泄漏（GID1）;

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专利

1. Modeling of Back-Gate Effects on Gate-Induced Drain Leakage and Gate Currents in UTB SOI MOSFETs [J] . Yen-Kai Lin, Pragya Kushwaha, Harshit Agarwal, IEEE Transactions on Electron Devices . 2017,第10期

机译：UTB SOI MOSFET中背栅对栅极感应的漏极泄漏和栅极电流的影响的建模
2. A novel double offset-implanted source/drain technology for reduction of gate-induced drain-leakage with 0.12-/spl mu/m single-gate low-power SRAM device [J] . Sang-Hun Seo, Won-Suk Yang, Han-Sin Lee, IEEE Electron Device Letters . 2002,第12期

机译：一种新颖的双偏置注入源极/漏极技术，可通过0.12- / splμm/ m单栅极低功耗SRAM器件来减少栅极感应的漏极泄漏
3. Carrier lifetime analysis in thin gate oxide FD-SOI n-MOSFETs by gate-induced drain current transients [J] . K. Hayama, K. Takakura, H. Ohyama, Journal of Materials Science. Materials in Electronics . 2008,第2期

机译：通过栅极感应的漏极电流瞬态分析薄栅氧化物FD-SOI n-MOSFET的载流子寿命
4. Asyammetric gate oxide thickness technology for reduction of Gate Induced Drain Leakage current in nanoscale single gate SOI MOSFET [C] . Fathipour, Morteza, Kohani, Optoelectronic and Microelectronic Materials and Devices (COMMAD), 2008 Conference on . 2008

机译：非对称栅氧化层厚度技术可降低纳米级单栅SOI MOSFET的栅感应漏电流
5. An analysis on the simulation of the leakage currents of independent double gate SOI MOSFET transistors. [D] . Moolamalla, Himaja Reddy. 2009

机译：独立双栅极SOI MOSFET晶体管泄漏电流的仿真分析。
6. Gate leakage current induced trapping in AlGaN/GaN Schottky-gate HFETs and MISHFETs [O] . Wen-Chia Liao, Yan-Lun Chen, Zheng-Xing Chen, 2014

机译：栅漏电流在AlGaN / GaN肖特基栅HFET和MISHFET中引起的陷阱
7. Relationship of drain induced barrier lowering and top/bottom gate oxide thickness in asymmetric junctionless double gate MOSFET [O] . Hakkee Jung 2021

机译：漏极感应屏障降低和顶/底栅氧化物厚度在不对称连接双闸门MOSFET中的关系
8. Influence of the Polysilicon Gate on the Random Dopant Induced Threshold Voltage Fluctuations in Sub 100 nm MOSFETS with Thin Gate Oxides [R] . Asenov, Asen, Saini, S. 2000

机译：多晶硅栅极对具有薄栅氧化层的亚100nm mOsFET中随机掺杂诱导阈值电压波动的影响

Asyammetric gate oxide thickness technology for reduction of Gate Induced Drain Leakage current in nanoscale single gate SOI MOSFET

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