The ballistic nanotransistor: a simulation study

International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138) Pub Date : 2000-12-10 DOI:10.1109/IEDM.2000.904418
Z. Ren, R. Venugopal, S. Datta, Mark S. Lundstrom, D. Jovanovic, J. Fossum
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引用次数: 107

Abstract

The device design and physics issues of ballistic double-gate (DG) MOSFETs are explored using semiclassical and quantum simulations. We find that tunneling from source-to-drain increases the off-current but decreases the on-current for an L=10 nm model transistor. We also show that source-to-drain tunneling sets a scaling limit at less than about L=10 nm, but to achieve this limit, ultra-thin bodies are necessary to control classical two-dimensional short-channel effects. Finally, we show that to meet performance targets at low voltages, near-ballistic performance is necessary, and we estimate the mobility that will be required for these ultra-thin silicon films.
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弹道纳米晶体管:模拟研究
利用半经典和量子模拟的方法探讨了弹道双栅mosfet的器件设计和物理问题。我们发现从源极到漏极的隧穿增加了关断电流,但减小了L=10 nm型号晶体管的通断电流。我们还发现源极-漏极隧道设置了小于约L=10 nm的缩放极限,但要达到这一极限,需要超薄体来控制经典的二维短通道效应。最后,我们表明,为了满足低电压下的性能目标,近弹道性能是必要的,我们估计了这些超薄硅薄膜所需的迁移率。
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International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138)
International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138)
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