Schr?dinger Equation Based Quantum Corrections in Drift-Diffusion: A Multiscale Approach

机译：SCHR？基于漂移扩散中基于量子校正的探测器：多尺度方法

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In this work, we report the development of a 3D drift-diffusion (DD) simulator for ultrascaled transistors with quantum corrections based on the solution of the Schr?dinger equation. In a novel multi-scale simulation approach we use effective masses from tight-binding calculations, carrier mobility from the semi-classical Kubo-Greenwood formalism, and quantum corrections based on self-consistent Poisson-Schr?dinger solution. This scheme has been implemented into the University of Glasgow TCAD tool called NESS (Nano Electronic Simulation Software). The approach is validated with respect to non-equilibrium Green's function (NEGF) simulations in the case of nanowire field effect transistors with different cross-sectional shapes.

机译：在这项工作中，我们报告了基于SCHRα的溶液的量子校正的超量晶体管3D漂移扩散（DD）模拟器的开发。在一种新型的多尺度模拟方法中，我们利用有效质量从紧密结合的计算，从半古典kubo-greenwood形式主义的载流子行动，以及基于自我一致的泊松-SCHR？DINGER解决方案的量子校正。该计划已经实施到Glasgow TCAD工具大学称为NESS（纳米电子仿真软件）。在具有不同横截面形状的纳米线场效应晶体管的情况下，在纳米线场效应晶体管的情况下验证了该方法。

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《IEEE Nanotechnology Materials and Devices Conference》|2019年|144p|共4页
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Tapas Dutta; Cristina Medina-Bailon; Hamilton Carrillo-Nu?ez; Oves Badami; Vihar Georgiev; Asen Asenov;
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field effect transistors; Green's function methods; junctionless nanowire transistors; nanoelectronics; Poisson equation; Schrodinger equation; semiconductor device models; technology CAD (electronics); tight-binding calculations;

机译：场效应晶体管;绿色的功能方法;无连接纳米线晶体管;纳米电子;泊松方程;Schrodinger方程;半导体器件型号;技术CAD（电子）;紧密结合计算;

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专利

1. Quantum Corrections Based on the 2-D Schrödinger Equation for 3-D Finite Element Monte Carlo Simulations of Nanoscaled FinFETs [J] . Lindberg J., Aldegunde M., Nagy D., IEEE Transactions on Electron Devices . 2014,第2期

机译：基于2-DSchrödinger方程的量子校正用于纳米级FinFET的3-D有限元蒙特卡罗模拟
2. A new non-perturbative approach in quantum mechanics for time-independent Schr(o)dinger equations [J] . ShiJun Liao 中国科学:物理学力学天文学（英文版） . 2020,第003期

机译：多余的SCHR（O）Dinger方程中量子力学的一种新的非扰动方法
3. Self-consistent solution of Schrödinger–Poisson equations in a reverse biased nano-scale p-n junction based on hbox {Si/Si}_{0.4}hbox {Ge}_{0.6}/hbox {Si} quantum well [J] . Aritra Acharyya, Subhashri Chatterjee, Adrija Das, Journal of Computational Electronics . 2015,第1期

机译：基于hbox {Si / Si} _ {0.4} hbox {Ge} _ {0.6} / hbox {Si}量子阱的反向偏置纳米尺度p-n结中Schrödinger-Poisson方程的自洽解
4. Schrödinger Equation Based Quantum Corrections in Drift-Diffusion: A Multiscale Approach [C] . Tapas Dutta, Cristina Medina-Bailon, Hamilton Carrillo-Nuñez, IEEE Nanotechnology Materials and Devices Conference . 2019

机译：基于Schrödinger方程的漂移扩散量子校正：一种多尺度方法
5. Solution of the Time-dependent Schrödinger Equation via Complex Quantum Trajectories [D] . Goldfarb, Yair 2008

机译：时变薛定ding方程的复量子轨迹解
6. Theory of quantum path computing with Fourier optics and future applications for quantum supremacy neural networks and nonlinear Schrödinger equations [O] . Burhan Gulbahar -1

机译：傅里叶光学的量子路径计算理论及其在量子至上神经网络和非线性Schrödinger方程中的未来应用
7. Semiconductor simulations using a coupled quantum drift-diffusion Schrödinger-Poisson model [O] . Asma El Ayyadi, Ansgar Jüngel 2004

机译：使用耦合量子漂移 - 扩散schrödinger-poisson模型的半导体模拟

Schr?dinger Equation Based Quantum Corrections in Drift-Diffusion: A Multiscale Approach

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