A non-linear variational principle for the self-consistent solution of Poisson's equation and a transport equation in the local density approximation

机译：泊松等式的自我一致性解决方案的非线性变分原理及局部密度近似的传输方程

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In order to simplify the numerical investigation of carrier transport in nanodevices without jeopardizing the rigor of a full quantum mechanical treatment, we have exploited an existing variational principle to solve self-consistently Poisson's equation and Schrödinger's equation as well as an appropriate transport equation within the scope of the generalized local density approximation (GLDA). In this work, as a benchmark, we have applied our approach to compute the ballistic current density and electron concentration in a Si nanowire.

机译：为了简化纳米型载波运输的数值调查而不危及完全量子机械处理的严格，我们利用了现有的分类原理来解决自我一致的泊松等式和Schrödinger的等式以及范围内的适当传输方程广义局部密度近似（GLDA）。在这项工作中，作为基准，我们已经应用了我们的方法来计算Si纳米线中的弹道电流密度和电子浓度。

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《International Conference on Simulation of Semiconductor Processes and Devices》|2010年||共4页
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Carrillo-Nunez H.; Magnus Wim; Peeters F. M.;
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1. Analysis of the MOS transistor based on the self-consistent solution to the Schrodinger and Poisson equations and on the local mobility model [J] . Janik T., Majkusiak B. IEEE Transactions on Electron Devices . 1998,第6期

机译：基于Schrodinger和Poisson方程的自洽解以及局部迁移模型对MOS晶体管进行分析
2. Variational principles, Lie point symmetries, and similarity solutions of the vector Maxwell equations in non-linear optics [J] . Webb G, Sorensen MP, Brio M, Physica, D. Nonlinear phenomena . 2004,第1a2期

机译：非线性光学中矢量麦克斯韦方程组的变分原理，Lie点对称性和相似性解
3. Variational principle and a perturbative solution of non-linear string equations in curved space [J] . S. N. Roshchupkin, A. A. Zheltukhin Nuclear physics, B . 1999,第1a2期

机译：弯曲空间中非线性弦方程的变分原理和摄动解
4. A non-linear variational principle for the self-consistent solution of Poisson's equation and a transport equation in the local density approximation [C] . Carrillo-Nunez H., Magnus Wim, Peeters F. M. 15th International Conference on Simulation of Semiconductor Processes and Devices . 2010

机译：局部密度近似中泊松方程和输运方程自洽解的非线性变分原理
5. Self-consistent numerical solution of poisson and driftdiffusion equations for a diamond nanowire. [D] . Ghiya, Rutwik. 2015

机译：金刚石纳米线的泊松和漂移扩散方程的自洽数值解。
6. Comparing the Predictions of the Nonlinear Poisson-Boltzmann Equation and the Ion Size-Modified Poisson-Boltzmann Equation for a Low-Dielectric Charged Spherical Cavity in an Aqueous Salt Solution [O] . Alexander R.J. Silalahi, Alexander H. Boschitsch, Robert C. Harris, -1

机译：比较非线性Poisson-Boltzmann方程的预测和离子尺寸改性泊松 - Boltzmann方程在水溶液中的低介电带电球腔中
7. A variational principle for non-linear transport equations [O] . Nassif Ghoussoub 2013

机译：非线性传输方程的变分原理
8. NUMERICAL SOLUTION TO THE VLASOV-POISSON EQUATIONS AND TO THE SIMPLIFIED FOKKER PLANCK-POISSON EQUATIONS [R] . Kent Estabrook, Igor Alexeff 1972

机译：VLasOV-pOIssON方程的数值解及简化的FOKKER pLaNCK-pOIssON方程

A non-linear variational principle for the self-consistent solution of Poisson's equation and a transport equation in the local density approximation

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