Modeling and simulation of active plasmonics with the FDTD method by using solid state and Lorentz–Drude dispersive model

Iftikhar Ahmed; Eng Huat Khoo; Oka Kurniawan; Er Ping Li

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Modeling and simulation of active plasmonics with the FDTD method by using solid state and Lorentz–Drude dispersive model

机译：使用固态和Lorentz-Drude色散模型通过FDTD方法对有源等离子体激元进行建模和仿真

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An approach for the simulation of active plasmonics devices is presented in this paper. In the proposed approach, a multilevel multielectron quantum model is applied to the solid state part of a structure, where the electron dynamics are governed by the Pauli exclusion principle, state filling, and dynamical Fermi–Dirac thermalization, while for the metallic part, the Lorentz–Drude dispersive model is incorporated into Maxwell’s equations. The finite difference time domain method is applied to the resulting equations. For numerical results, the developed methodology is applied to a metal–semiconductor–metal plasmonic waveguide and a microcavity resonator.

机译：本文提出了一种模拟有源等离子体激元器件的方法。在提出的方法中，将多级多电子量子模型应用于结构的固态部分，其中电子动力学由保利排斥原理，状态填充和动态费米-狄拉克热化控制，而对于金属部分，则由Lorentz-Drude色散模型已合并到Maxwell方程中。时域有限差分法应用于所得方程。对于数值结果，将开发的方法应用于金属-半导体-金属等离激元波导和微腔谐振器。

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《Journal of the Optical Society of America, B. Optical Physics》 |2011年第3期|共8页
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Iftikhar Ahmed; Eng Huat Khoo; Oka Kurniawan; Er Ping Li;
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1. Modeling and simulation of active plasmonics with the FDTD method by using solid state and Lorentz–Drude dispersive model [J] . Iftikhar Ahmed, Eng Huat Khoo, Oka Kurniawan, Journal of the Optical Society of America, B. Optical Physics . 2011,第3期

机译：使用固态和Lorentz-Drude色散模型通过FDTD方法对有源等离子体激元进行建模和仿真
2. Numerical simulation of metallic nanostructures interacting with electromagnetic fields using the Lorentz-Drude model and FDTD method [J] . Benavides-Cruz M., Calderon-Ramon C., Gomez-Aguilar J. F., International Journal of Modern Physics, C. Physics and Computers . 2016,第4期

机译：Lorentz-Drude模型和FDTD方法对金属纳米结构与电磁场相互作用的数值模拟
3. Dispersive Contour-Path FDTD Algorithm for the Drude–Lorentz Model [J] . Shibayama Jun, Suzuki Kazuto, Iwamoto Tetsuya, IEEE Antennas and Wireless Propagation Letters . 2020,第10期

机译：Drude-Lorentz模型的分散轮廓路径FDTD算法
4. Modeling Lorentz dispersive media in FDTD using the exponential time differencing method [C] . Ding Yu Heh, Tan E.L. Microwave Conference, 2008. APMC 2008 . 2008

机译：使用指数时差法在FDTD中建模Lorentz色散介质
5. Development of complex envelope FDTD methods for electromagnetic modeling and simulation. [D] . Ma, Changning. 2006

机译：开发用于电磁建模和仿真的复杂包络FDTD方法。
6. Efficient Wideband Numerical Simulations for Nanostructures Employing a Drude-Critical Points (DCP) Dispersive Model [O] . Qiang Ren, Jogender Nagar, Lei Kang, -1

机译：使用德鲁伊临界点（DCP）色散模型的纳米结构的高效宽带数值模拟
7. Implementation of the FDTD method based on lorentz-drude dispersive model on GPU for plasmonics applications [O] . K. H. Lee, I. Ahmed, R. S. M. Goh, 2011

机译：基于GpU上的lorentz-drude色散模型实现基于等离子体应用的FDTD方法
8. Global Modeling of Microwave Three Terminal Active Devices Using the FDTD Method [R] . Mrabet, O. E. , Essaaidi, M. , Drissi, M. 2005

机译：利用FDTD方法对微波三端有源器件进行全局建模

Modeling and simulation of active plasmonics with the FDTD method by using solid state and Lorentz–Drude dispersive model

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