Electron mobility improvement by in situ annealing before deposition of HfO_2 gate dielectric with equivalent oxide thickness of sub-1.0nm in In_(0.53)Ga_(0.47)As n-type metal-insulator-semiconductor field-effect transistor

Minoru Oda; Toshifumi Irisawa; Wipakorn Jevasuwan; Tatsuro Maeda; Yuuichi Kamimuta; Osamu Ichikawa; Toshio Ishihara; Takenori Osada; Tsutomu Tezuka

首页> 外文期刊>_Applied Physics Express >Electron mobility improvement by in situ annealing before deposition of HfO_2 gate dielectric with equivalent oxide thickness of sub-1.0nm in In_(0.53)Ga_(0.47)As n-type metal-insulator-semiconductor field-effect transistor

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Electron mobility improvement by in situ annealing before deposition of HfO_2 gate dielectric with equivalent oxide thickness of sub-1.0nm in In_(0.53)Ga_(0.47)As n-type metal-insulator-semiconductor field-effect transistor

机译：通过在In_（0.53）Ga_（0.47）As n型金属-绝缘体-半导体场效应晶体管中沉积等效氧化膜厚度小于1.0nm的HfO_2栅极电介质之前通过原位退火提高电子迁移率

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The electron mobility in HfO_2/In_(0.53)Ga_(0.47)As n-type metal-insulator-semiconductor field-effect transistors (nMISFETs) has been found to be significantly enhanced in the sub-1.0nm equivalent oxide thickness (EOT) regime by annealing before the atomic layer deposition (ALD) of the HfO_2 gate dielectric. XPS measurements revealed that the predeposition annealing increased the amount of GaO_x and reduced the amount of AsO_x at the MIS interface, which is considered to reduce the trapped charge density and enhance the mobility, especially in the low-surface-carrier-density region.

机译：已经发现，在低于1.0nm的等效氧化物厚度（EOT）范围内，HfO_2 / In_（0.53）Ga_（0.47）As n型金属-绝缘体-半导体场效应晶体管（nMISFET）中的电子迁移率显着提高通过在HfO_2栅极电介质的原子层沉积（ALD）之前进行退火。 XPS测量表明，预沉积退火增加了MIS界面处的GaO_x的量并减少了AsO_x的量，这被认为可以降低捕获的电荷密度并增强迁移率，尤其是在低表面载流子密度区域。

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来源
《_Applied Physics Express》 |2014年第6期|061202.1-061202.4|共4页
作者
Minoru Oda; Toshifumi Irisawa; Wipakorn Jevasuwan; Tatsuro Maeda; Yuuichi Kamimuta; Osamu Ichikawa; Toshio Ishihara; Takenori Osada; Tsutomu Tezuka;
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Collaborative Research Team, Green Nanoelectronics Center, National Institute of Advanced Industrial Science and Technology,Tsukuba, Ibaraki 305-8569, Japan;

Collaborative Research Team, Green Nanoelectronics Center, National Institute of Advanced Industrial Science and Technology,Tsukuba, Ibaraki 305-8569, Japan;

Collaborative Research Team, Green Nanoelectronics Center, National Institute of Advanced Industrial Science and Technology,Tsukuba, Ibaraki 305-8569, Japan;

Collaborative Research Team, Green Nanoelectronics Center, National Institute of Advanced Industrial Science and Technology,Tsukuba, Ibaraki 305-8569, Japan;

Collaborative Research Team, Green Nanoelectronics Center, National Institute of Advanced Industrial Science and Technology,Tsukuba, Ibaraki 305-8569, Japan;

IT-Related Chemicals Research Laboratory, Sumitomo Chemical Co., Ltd., Tsukuba, Ibaraki 300-3294, Japan;

IT-Related Chemicals Research Laboratory, Sumitomo Chemical Co., Ltd., Tsukuba, Ibaraki 300-3294, Japan;

IT-Related Chemicals Research Laboratory, Sumitomo Chemical Co., Ltd., Tsukuba, Ibaraki 300-3294, Japan;

Collaborative Research Team, Green Nanoelectronics Center, National Institute of Advanced Industrial Science and Technology,Tsukuba, Ibaraki 305-8569, Japan;

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Electron mobility improvement by in situ annealing before deposition of HfO_2 gate dielectric with equivalent oxide thickness of sub-1.0nm in In_(0.53)Ga_(0.47)As n-type metal-insulator-semiconductor field-effect transistor

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