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Non-planar, multi-gate InGaAs quantum well field effect transistors with high-K gate dielectric and ultra-scaled gate-to-drain/gate-to-source separation for low power logic applications

机译：非平面，多栅极IngaAs量子阱场效应晶体管，具有高k栅极电介质和超缩放的栅极 - 漏极/栅极 - 源分离，用于低功耗逻辑应用

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In this work, non-planar, multi-gate InGaAs quantum well field effect transistors (QWFETs) with high-K gate dielectric and ultra-scaled gate-to-drain and gate-to-source separations (LSIDE) of 5nm are reported for the first time. The high-K gate dielectric formed on this non-planar device structure has the expected thin TOXE of 20.5Å with low JG, and high quality gate dielectric interface. The simplified S/D scheme is needed for the non-planar architecture while achieving significant reduction in parasitic resistance. Compared to the planar high-K InGaAs QWFET with similar TOXE, the non-planar, multi-gate InGaAs QWFET shows significantly improved electrostatics due to better gate control. The results of this work show that non-planar, multi-gate device architecture is an effective way to improve the scalability of III–V QWFETs for low power logic applications.

机译：在这项工作中，非平面，多栅极IngaAs量子阱场效应晶体管（QWFET），具有高k栅极电介质和超缩放的栅极到漏极和栅极到源分离（L 侧）。在该非平面器件结构上形成的高k栅极电介质具有20.5埃的预期薄氧氧化物，具有低J G 和高质量的栅极介电接口。非平面架构需要简化的S / D方案，同时实现寄生电阻的显着降低。与具有类似T OXE的平面高k INGAAS QWFET相比，非平面，多栅极INGAAS QWFET由于闸门控制而显着改善静电。这项工作的结果表明，非平面，多门设备架构是提高III-V QWFET的可扩展性的有效方法，用于低功耗逻辑应用。

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《IEEE International Electron Devices Meeting》|2010年||共4页
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3. The effect of quantum confinement on tunneling field-effect transistors with high-K gate dielectric [J] . J. L. Padilla, F. Gamiz, A. Godoy Applied Physics Letters . 2013,第11期

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4. Non-planar, multi-gate InGaAs quantum well field effect transistors with high-K gate dielectric and ultra-scaled gate-to-drain/gate-to-source separation for low power logic applications [C] . 2010 IEEE International Electron Devices Meeting . 2010

机译：非平面，多栅极InGaAs量子阱场效应晶体管，具有高K栅极电介质和超规模的栅-漏/栅-源隔离，适用于低功耗逻辑应用
5. Classical and Coulomb blockade III-V multi-gate quantum well field effect transistors for ultra low power logic applications. [D] . Liu, Lu. 2014

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Non-planar, multi-gate InGaAs quantum well field effect transistors with high-K gate dielectric and ultra-scaled gate-to-drain/gate-to-source separation for low power logic applications

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