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Drain current modulation in a nanoscale field-effect-transistor channel by single dopant implantation

机译：通过单掺杂注入在纳米级场效应晶体管通道中进行漏极电流调制

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摘要

We demonstrate single dopant implantation into the channel of a silicon nanoscale metal-oxide-semiconductor field-effect-transistor. This is achieved by monitoring the drain current modulation during ion irradiation. Deterministic doping is crucial for overcoming dopant number variability in present nanoscale devices and for exploiting single atom degrees of freedom. The two main ion stopping processes that induce drain current modulation are examined. We employ 500 keV He ions, in which electronic stopping is dominant, leading to discrete increases in drain current and 14 keV P dopants for which nuclear stopping is dominant leading to discrete decreases in drain current.

机译：我们展示了单一掺杂剂注入到硅纳米级金属氧化物半导体场效应晶体管的沟道中。这是通过监视离子辐照期间的漏极电流调制来实现的。确定性掺杂对于克服当前纳米级器件中的掺杂剂数量可变性和利用单原子自由度至关重要。研究了诱导漏极电流调制的两个主要离子停止过程。我们采用500 keV He离子，其中电子停止占主导地位，从而导致漏极电流的离散增加，而14 keV P掺杂剂中，核停止占主导地位，导致漏极电流的离散减小。

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Johnson, B.C. (author); Tettamanzi, G.C. (author); Alves, A.D.C. (author); Thompson, S. (author); Yang, C. (author); Verduijn, J. (author); Mol, J.A. (author); Wacquez, R. (author); Vinet, M. (author); Sanquer, M. (author); Rogge, S. (author); Jamieson, D.N. (author);
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1. Drain current modulation in a nanoscale field-effect-transistor channel by single dopant implantation [J] . B. C. Johnson, G. C. Tettamanzi, A. D. C. Alves, Applied Physicsletters . 2010,第26期

机译：通过单掺杂注入在纳米级场效应晶体管通道中进行漏极电流调制
2. Drain Current Collapse in Nanoscaled Bulk MOSFETs Due to Random Dopant Compensation in the Source/Drain Extensions [J] . Markov S., Wang X., Moezi N., Electron Devices, IEEE Transactions on . 2011,第8期

机译：由于源极/漏极扩展中的随机掺杂补偿，纳米级大块MOSFET中的漏极电流崩溃
3. Improvement in drain-induced-barrier-lowering and on-state current characteristics of bulk Si fin field-effect-transistors using high temperature Phosphorus extension ion implantation [J] . Solid-State Electronics . 2019,第FEBa期

机译：高温磷扩展离子注入改善体硅鳍片场效应晶体管的漏极诱导势垒降低和导通电流特性
4. Selective phase modulation of NiSi using N-ion implantation for high performance dopant-segregated source/drain n-channel MOSFETs [C] . Symposium on VLSI Technology . 2009

机译：NISI对高性能掺杂剂隔离源/漏电N沟道MOSFET的N-离子注入的NISI选择性相位调制
5. Gate dielectric investigations of ultra-thin oxide and nitride /oxide stack for nanometer N- and P -channel metal-oxide-semiconductor field-effect-transistors [D] . Yee, Kam Fu 2000

机译：纳米N沟道和P沟道金属氧化物半导体场效应晶体管的超薄氧化物和氮化物/氧化物堆叠的栅极电介质研究
6. Drain Current Modulation of a Single Drain MOSFET by Lorentz Force for Magnetic Sensing Application [O] . Prasenjit Chatterjee, Hwang-Cherng Chow, Wu-Shiung Feng 2016

机译：洛仑兹力对单漏极MOSFET的漏极电流调制用于磁传感应用
7. Drain current modulation in a nanoscale field-effect-transistor channel by single dopant implantation [O] . Johnson, B.C., Tettamanzi, G.C., Alves, A.D.C., 2010

机译：通过单掺杂注入在纳米级场效应晶体管通道中进行漏极电流调制

Drain current modulation in a nanoscale field-effect-transistor channel by single dopant implantation

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