Nonlinear nanopolaritonics: Finite-difference time-domain Maxwell-Schr_dinger simulation of molecule-assisted plasmon transfer

Kenneth Lopata; Daniel Neuhauser

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Nonlinear nanopolaritonics: Finite-difference time-domain Maxwell-Schr_dinger simulation of molecule-assisted plasmon transfer

机译：非线性纳米极化子：分子辅助等离子体激元转移的时域有限差分Maxwell-Schr_dinger模拟

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The effect of nonlinear excitations of a nearby two-state dipolar molecule on plasmon transfer across a pair of spherical gold nanoparticles is studied numerically using a split field finite-difference time-domain Maxwell-Schr_dinger approach [K. Lopata and D. Neuhauser, J. Chem. Phys. 130, 104707 (2009)]. It is observed in the linear response regime that the molecule has a drastic effect on plasmon transfer; specifically, there is a Fano-type resonance that serves to scatter localized plasmons from x-polarization to y-polarization. With increasing nonlinearity of the molecular excitation, the scattering effect saturates due to the limited capacity of the molecule to absorb and radiate energy once the excited and ground states are equally populated.

机译：使用分裂场有限差分时域Maxwell-Schr_dinger方法，数值研究了附近的两态偶极分子的非线性激发对穿过一对球形金纳米粒子的等离激元转移的影响。 Lopata和D.Neuhauser，J.Chem。物理130，104707（2009）]。在线性响应方案中观察到该分子对等离激元转移具有极大的影响。具体而言，存在一种Fano型共振，可将局部等离激元从x极化散射到y极化。随着分子激发的非线性不断增加，一旦激发态和基态均等分布，由于分子吸收和辐射能量的能力有限，散射效应就会饱和。

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《The Journal of Chemical Physics》 |2009年第1期|共5页
作者
Kenneth Lopata; Daniel Neuhauser;
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正文语种 eng
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关键词
excitations; molecule; response; response;

机译：激发;分子;响应;响应;

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1. Nonlinear nanopolaritonics: Finite-difference time-domain Maxwell-Schr_dinger simulation of molecule-assisted plasmon transfer [J] . Kenneth Lopata, Daniel Neuhauser The Journal of Chemical Physics . 2009,第1期

机译：非线性纳米极化子：分子辅助等离子体激元转移的时域有限差分Maxwell-Schr_dinger模拟
2. Nonlinear finite-difference time-domain method for the simulation of anisotropic, /spl chi//sup (2)/, and /spl chi//sup (3)/ optical effects [J] . Reinke C.M., Jafarpour A., Momeni B., Journal of Lightwave Technology . 2006,第1期

机译：非线性有限差分时域方法，用于模拟各向异性，/ spl chi // sup（2）/和/ spl chi // sup（3）/光学效应
3. Transfer-matrix approach for finite-difference time-domain simulation of periodic structures [J] . Alexei Deinega, Sergei Belousov, Ilya Valuev PHYSICAL REVIEW E . 2013,第5期

机译：传递矩阵法用于周期性结构的时域有限差分模拟
4. Finite-Difference Time-Domain Simulation of Localized Surface Plasmon Resonance Adsorption by Gold Nanoparticles [C] . Wen-Chi Lin, Wen-Chen Lin, Cheng-Lun Tsai WACBE World Congress on Bioengineering . 2015

机译：金纳米粒子局部表面等离子体共振吸附的有限差分时间域模拟
5. Nanopolaritonics: Molecule-mediated plasmon transfer. [D] . Lopata, Kenneth Andrew. 2010

机译：纳米极化子：分子介导的等离激元转移。
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机译：有限差分时域法研究光敏聚合物中的表面浮雕光栅对金属层中表面等离振子极化的激发
7. Retrieving nonlinear refractive index of nanocomposites using finite-difference time-domain simulations [O] . Andrey V. Panov 2018

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8. Incorporation of Atmospheric Flow Fields and Ground Interactions into Acoustic Finite-Difference, Time-Domain Simulations [R] . Wilson, D. K. , Marlin, D. H. , Collier, S. L. , 2004

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Nonlinear nanopolaritonics: Finite-difference time-domain Maxwell-Schr_dinger simulation of molecule-assisted plasmon transfer

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