V. Djara, V. Deshpande, E. Uccelli, N. Daix, D. Caimi, C. Rossel, M. Sousa, H. Siegwart, C. Marchiori, J. Hartmann, K. Shiu, C.-W. Weng, M. Krishnan, M. Lofaro, R. Steiner, D. Sadana, D. Lubyshev, A. Liu, L. Czornomaz, J. Fompeyrine
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引用次数: 30
摘要
我们首次展示了超薄体(50 nm)、低缺陷的200 mm InGaAs-on-insulator (-OI)的直接晶圆键合技术(DWB),以及用于自对准完全耗尽InGaAs mosfet的替换栅极工艺。这些综合成就突出了我们的方法在高级节点上集成InGaAs的VLSI的可行性。短通道替换栅极(RMG)和栅极优先(GF)场效应管首次被报道使用120nm触点间距的InGaAs-OI晶圆。在50 nm- lg RMG finfet上实现了InGaAs器件在固定工作电压0.5V下的118 μA/μm记录离子。这两种方案都具有高度缩放的鳍(低至15纳米)。与GF集成流相比,RMG器件具有更好的离子和DIBL特性。我们还演示了具有70 nm触点和120 nm间距的场效应管实现高离子。
An InGaAs on Si platform for CMOS with 200 mm InGaAs-OI substrate, gate-first, replacement gate planar and FinFETs down to 120 nm contact pitch
We report on the first demonstration of ultra-thin body (50 nm), low defectivity 200 mm InGaAs-on-insulator (-OI) fabricated by direct wafer bonding technique (DWB) as well as a replacement gate process for self-aligned fully depleted InGaAs MOSFETs. These combined achievements highlight the viability of our approach for the VLSI integration of InGaAs at advanced nodes. Short channel replacement gate (RMG) and Gate-first (GF) FETs are reported for the first time using InGaAs-OI wafers with a 120nm contact-to-contact pitch. Record ION (118 μA/μm) at fixed operating voltage of 0.5V for InGaAs devices on Si is achieved on 50-nm-Lg RMG FinFETs. Both schemes feature highly scaled fins (down to 15 nm). Compared to a GF integration flow, RMG devices exhibit better Ion and DIBL characteristics. We also demonstrate FETs with 70 nm contacts and 120 nm pitch achieving high-ION.
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