Finite-difference time-domain analysis of refractive index grating on planar light waveguide circuit with optically trapped gold particles

Yotsutani R.; Ukita H.

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Finite-difference time-domain analysis of refractive index grating on planar light waveguide circuit with optically trapped gold particles

机译：具有光捕获金粒子的平面光波导电路中折射率光栅的时域有限差分分析

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The super-resolution capability of scanning near-field optical microscopy (SNOM) with a gold particle is studied by the two-dimensional finite-difference time-domain (2D FDTD) method. We obtain SNOM signals by integrating the far field within the numerical aperture of an objective lens for a refractive index grating by scanning optically trapped gold particles with different diameters illuminated by focused laser light at the wavelength of 515 nm. The signal is strong at a high refractive index of the grating and exhibits similar behavior to that obtained in the experiment with the grating fabricated on a planar light waveguide circuit with a period of 1060 nm. Furthermore, the signal modulation increases as the gold particle diameter decreases and reaches 0.82 at a diameter of 50 nm.

机译：通过二维时域有限差分法（2D FDTD）研究了金粒子的扫描近场光学显微镜（SNOM）的超分辨能力。我们通过扫描折射率为515 nm的聚焦激光照射的不同直径的光学捕获金粒子，将远场积分到折射率光栅的物镜的数值孔径内，从而获得SNOM信号。该信号在光栅的高折射率下很强，并且表现出与在平面光波导电路上制造的光栅具有1060 nm周期的实验中获得的行为相似的行为。此外，信号调制随着金粒径的减小而增加，并在50 nm的直径处达到0.82。

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《Optical review》 |2010年第1期|共6页
作者
Yotsutani R.; Ukita H.;
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正文语种 eng
中图分类光学;
关键词
Far field; FDTD; Gold particle; Optical tweezers; Refractive index grating; SNOM;

机译：远场;FDTD;金粒子;光镊;折射率光栅;SNOM;

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专利

1. Finite-difference time-domain analysis of refractive index grating on planar light waveguide circuit with optically trapped gold particles [J] . Yotsutani R., Ukita H. Optical review . 2010,第1期

机译：具有光捕获金粒子的平面光波导电路中折射率光栅的时域有限差分分析
2. Optical waveguide grating couplers: 2nd-order and 4th-order finite-difference time-domain analysis [J] . Aristeides D. Papadopoulos, Elias N. Glytsis Applied optics . 2009,第27期

机译：光波导光栅耦合器：二阶和四阶有限差分时域分析
3. Optical waveguide grating couplers: 2nd-order and 4th-order finite-difference time-domain analysis [J] . Aristeides D. Papadopoulos, Elias N. Glytsis Applied optics . 2009,第27期

机译：光波导光栅耦合器：二阶和四阶有限差分时域分析
4. Near Field Observation of a Refractive Index Grating and a Topographical Grating by an Optically-Trapped Gold Particle [C] . Hiroo Ukita, Hirotaka Uemi, Alexander A. Sawchuk Conference on Lasers and Electro-Optics . 2004

机译：近场观察折射率光栅和光学捕获的金颗粒的地形光栅
5. Design, fabrication and analysis of integrated optical waveguide devices (Laser micromachining, Planar lightguide circuits). [D] . Sikorski, Yuri. 2000

机译：集成光波导设备（激光微加工，平面光导电路）的设计，制造和分析。
6. Resonant Grating without a Planar Waveguide Layer as a Refractive Index Sensor [O] . Sivan Isaacs, Ansar Hajoj, Mohammad Abutoama, 2019

机译：没有平面波导层作为折射率传感器的谐振光栅
7. SiON high-refractive-index waveguide and planar lightwave circuits [O] . G.-L. Bona, R. Germann, B. J. Offrein 2007

机译：siON高折射率波导和平面光波电路
8. Application of the Three-Dimensional Finite-Difference Time-Domain Method to theAnalysis of Planar Microstrip Circuits [R] . Sheen, D. M., Ali, S. M., Abouzahra, M. D., 1990

机译：三维时域有限差分法在平面微带电路分析中的应用

Finite-difference time-domain analysis of refractive index grating on planar light waveguide circuit with optically trapped gold particles

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