Monte Carlo simulation of implant free InGaAs MOSFET

机译：蒙特卡罗模拟无注入InGaas mOsFET

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The performance potential of n-type implant free In0.25Ga0.75As MOSFETs with high-κ dielectric is investigated using ensemble Monte Carlo device simulations. The implant free MOSFET concept takes advantage of the high mobility in III-V materials to allow operation at very high speed and low power. A 100 nm gate length implant free In0.25Ga0.75As MOSFET with a layer structure derived from heterojunction transistors may deliver a drive current of 1800 A/m and transconductance up to 1342 mS/mm. This implant free transistor is then scaled in the both lateral and vertical dimensions to gate lengths of 70 and 50 nm. The scaled devices exhibit continuous improvement in the drive current up to 2600 A/m and 3259 A/m and transconductance of 2076 mS/mm and 3192 mS/mm, respectively. This demonstrates the excellent scaling potential of the implant free MOSFET concept.

机译：使用集成蒙特卡洛器件仿真研究了具有高κ介电常数的无n型In0.25Ga0.75As MOSFET的性能潜力。无注入MOSFET概念充分利用了III-V材料的高迁移率，可实现极高的速度和低功耗。具有源自异质结晶体管的层结构的100 nm栅极长度，无注入长度的In0.25Ga0.75As MOSFET可提供1800 A / m的驱动电流和高达1342 mS / mm的跨导。然后，将这种无注入晶体管的横向和垂直尺寸都按比例缩放到70和50 nm的栅极长度。缩放后的器件在驱动电流分别达到2600 A / m和3259 A / m以及跨导分别为2076 mS / mm和3192 mS / mm方面显示出持续的改进。这证明了无注入MOSFET概念的出色缩放潜力。

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Kalna, K.; Asenov, A.; Passlack, M.;
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年度 2006
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专利

1. Monte Carlo simulations of δ-doping placement in sub-100 nm implant free InGaAs MOSFETs [J] . K. Kalna, Q. Wang, M. Passlack, Materials Science and Engineering. B, Solid-State Materials for Advanced Technology . 2006,第3期

机译：低于100 nm的无注入InGaAs MOSFET中δ掺杂位置的Monte Carlo模拟
2. Monte Carlo Simulations of High-Performance Implant Free In$_{0.3}$Ga $_{0.7}$As Nano-MOSFETs for Low-Power CMOS Applications [J] . Kalna K., Wilson J. A., Moran D. A. J., IEEE transactions on nanotechnology . 2007,第期

机译：用于低功耗CMOS应用的高性能无植入In $ _ {0.3} $ Ga $ _ {0.7} $ As纳米MOSFET的蒙特卡罗模拟
3. Monte Carlo simulations of InGaAs nano-MOSFETs [J] . K. Kalna, R. Droopad, M. Passlack, Microelectronic Engineering . 2007,第9a10期

机译：InGaAs纳米MOSFET的Monte Carlo模拟
4. Monte Carlo simulations of inverse channel versus implant free In0.3Ga0.7As MOSFETs [C] . Kalna K., Ayubi-Moak J. S. Computational Electronics (IWCE), 2012 15th International Workshop on . 2012

机译：反向沟道与无注入In0.3Ga0.7As MOSFET的蒙特卡罗模拟
5. Two-dimensional Monte Carlo particle-based simulations of ultra-small MOSFETs. [D] . He, Xiaojiang. 2000

机译：基于二维蒙特卡洛粒子的超小型MOSFET仿真。
6. Three-dimensional multiwavelength Monte Carlo simulations of dermally implantable luminescent sensors [O] . Ruiqi Long, Mike McShane 2010

机译：可植入皮肤的发光传感器的三维多波长蒙特卡洛模拟
7. Monte Carlo simulations of high-performance implant free In_0.3Ga_0.7 nano-MOSFETs for low-power CMOS applications [O] . Kalna, K., Wilson, J.A., Moran, D.A.J., 2007

机译：蒙特卡罗模拟高性能无植入In _{0.3 Ga _{0.7 纳米mOsFET，用于低功耗CmOs应用}}
8. Monte Carlo Simulation of Implant Free InGaAs MOSFET [R] . Kalna, K. , Asenov, A. , Passlack, M. 2006

机译：无植入InGaas mOsFET的monte Carlo模拟

Monte Carlo simulation of implant free InGaAs MOSFET

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