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Preparation of epitaxial HfO2 film (EOT=0.5 nm) on Si substrate using atomic-layer deposition of amorphous film and rapid thermal crystallization (RTC) in an abrupt temperature gradient

机译：在突然温度梯度中使用非晶膜和快速热结晶（RTC）的原子层沉积在Si衬底上的外延HFO 膜（EOT = 0.5nm）的制备

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A new process route for preparing epitaxial dielectric films on Si substrates is proposed. It uses atomic layer deposition and rapid thermal crystallization instead of molecular beam epitaxy. The key is to create an abrupt temperature gradient along the thickness of an amorphous film by exploiting non-equilibrium heat conduction so that the film crystallizes film from the Si interface. The effectiveness of this technique was demonstrated by fabricating epitaxial HfO2 films on Si substrates and achieving an equivalent oxide thickness of 0.5 nm. This technique has the potential to fabricate single-crystal gate dielectric structures in future MOSFETs.

机译：提出了一种用于在Si基板上制备外延介电膜的新工艺路线。它使用原子层沉积和快速热结晶而不是分子束外延。键是通过利用非平衡的热传导来沿着非晶膜的厚度突出温度梯度，使得膜从Si界面结晶膜。通过在Si底物上制造外延HFO 2薄膜并实现0.5nm的等效氧化物厚度来证明该技术的有效性。该技术具有在未来MOSFET中制造单晶栅极介电结构的潜力。

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《IEEE International Electron Devices Meeting》|2010年||共4页
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4. Preparation of epitaxial HfO2 film (EOT=0.5 nm) on Si substrate using atomic-layer deposition of amorphous film and rapid thermal crystallization (RTC) in an abrupt temperature gradient [C] . 2010 IEEE International Electron Devices Meeting . 2010

机译：使用非晶层的原子层沉积和突然温度梯度下的快速热结晶（RTC）在Si衬底上制备外延HfO 2 膜（EOT = 0.5 nm）
5. Epitaxial silicon thin films by low temperature aluminum induced crystallization of amorphous silicon. [D] . Sharif, Khalil Hashem. 2005

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机译：原位沉积后沉积热退火的共蒸发Cu（InGa）SE 2 薄膜沉积在低温下

Preparation of epitaxial HfO2 film (EOT=0.5 nm) on Si substrate using atomic-layer deposition of amorphous film and rapid thermal crystallization (RTC) in an abrupt temperature gradient

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