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Fabrication of GaAs MISFET with nm-thin oxidized layer formed by UV and ozone process

机译：通过UV和臭氧工艺形成具有nm薄氧化层的Gaas mIsFET的制造

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A gate insulating layer with single nm-order thickness for suppressing gate leakage current is one of the key factors in extending downsizing limits, based upon the scaling rule, of field-effect-type transistors. We describe the fabrication and characterization of GaAs MISFETs with a nm-thin oxidized layer as the gate insulating layer, which is formed by an ultraviolet (UV) and ozone process. The UV and ozone process forms oxidized GaAs layers near the surface, which effectively suppress the reverse leakage current by several orders of magnitude. The fabricated GaAs MISFET can operate not only in the depletion mode, but also in the accumulation mode up to 3 V gate voltage for 8-nm-thick oxidized layers due to the current blocking effect of the oxidized layer. A current cutoff frequency of 6 GHz and a maximum oscillation frequency of 8 GHz are obtained for a GaAs MISFET with 1-/spl mu/m gate length and 8-nm-thick oxidized layers.

机译：用于抑制栅漏电流的具有单个纳米级厚度的栅绝缘层是扩展基于场效应型晶体管的尺寸减小极限的关键因素之一。我们描述了具有纳米薄氧化层作为栅极绝缘层的GaAs MISFET的制造和表征，该层是通过紫外线（UV）和臭氧工艺形成的。 UV和臭氧工艺在表面附近形成氧化的GaAs层，从而有效地将反向泄漏电流抑制了几个数量级。制成的GaAs MISFET不仅可以在耗尽模式下工作，而且由于氧化层的电流阻挡效应，对于8纳米厚的氧化层，还可以在高达3 V的栅极电压的累积模式下工作。对于具有1- / splμ/ m栅长和8-nm厚氧化层的GaAs MISFET，可获得6 GHz的电流截止频率和8 GHz的最大振荡频率。

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作者
Iiyama, Koichi; Kita, Yukihiro; Ohta, Yosuke; Nasuno, Masaaki; Takamiya, Saburo; Higashimine, Koichi; Ohtsuka, Nobuo;
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年度 2002
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正文语种 en
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专利

1. Fabrication of GaAs MISFET with nm-thin oxidized layer formed by UV and ozone process [J] . Iiyama K., Kita Y., Ohta Y., IEEE Transactions on Electron Devices . 2002,第11期

机译：通过紫外和臭氧工艺形成具有纳米薄氧化层的GaAs MISFET
2. Highly efficient UV-Ozone treatment for IAZO active layer to facilitate the low temperature fabrication of high performance thin film transistors [J] . CERAMICS INTERNATIONAL . 2020,第11aPta1期

机译：用于IAZO有效层的高效UV-臭氧处理，以促进高性能薄膜晶体管的低温制造
3. Decomposition processes of an organic monolayer formed on Si(111) via a silicon-carbon bond induced by exposure to UV irradiation or ozone [J] . Uosaki K., Quayum ME., Nihonyanagi S., Langmuir: The ACS Journal of Surfaces and Colloids . 2004,第4期

机译：通过暴露于紫外线或臭氧引起的硅-碳键在Si（111）上形成的有机单层的分解过程
4. Depletion and Accumulation Mode Operation of GaAs MISFETs with nm-Thin Gate Insulating Layers Formed by UV Ozone process [C] . Y. Kita, Y. Ohta, N. C. Paul, International symposium on compound semiconductor . 2002

机译：通过UV和臭氧过程形成GaAs MISFET的耗尽和累积模式操作
5. UV ozone oxidized high-kappa gate dielectrics on silicon and germanium substrates. [D] . Chi, David. 2006

机译：UV臭氧氧化了硅和锗衬底上的高κ栅极电介质。
6. Initial Processes of Atomic Layer Deposition of Al2O3 on InGaAs: Interface Formation Mechanisms and Impact on Metal-Insulator-Semiconductor Device Performance [O] . Wipakorn Jevasuwan, Yuji Urabe, Tatsuro Maeda, 2012

机译：InGaAs上Al2O3原子层沉积的初始过程：界面形成机理及其对金属-绝缘体-半导体器件性能的影响
7. Fablication of GaAs MISFET with nm-Thin Oxidized Layer Formed by UV and Ozone Process [O] . Iiyama, Koichi, Kita, Yukihiro, Ohta, Yosuke, 2002

机译：通过紫外和臭氧工艺形成具有纳米薄氧化层的GaAs MESFET的制备
8. High-Power-Density GaAs MISFET's with a Low-Temperature-Grown Epitaxial Layer asthe Insulator [R] . Chen, C. L., Smith, F. W., Clifton, B. J., 1991

机译：高功率密度Gaas mIsFET具有低温生长的外延层作为绝缘体

Fabrication of GaAs MISFET with nm-thin oxidized layer formed by UV and ozone process

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