Hybrid photonic-plasmonic near-field probe for efficient light conversion into the nanoscale hot spot

Koshelev Alexander; Munechika Keiko; Cabrini Stefano

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Hybrid photonic-plasmonic near-field probe for efficient light conversion into the nanoscale hot spot

机译：杂交光子等近场探头，用于高效光转化进入纳米级热点

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In this Letter, we present a design and simulations of the novel hybrid photonic-plasmonic near-field probe. Near-field optics is a unique imaging tool that provides optical images with resolution down to tens of nanometers. One of the main limitations of this technology is its low light sensitivity. The presented hybrid probe solves this problem by combining a campanile plasmonic probe with the photonic layer, consisting of the diffractive optic element (DOE). The DOE is designed to match the plasmonic field at the broad side of the campanile probe with the fiber mode. This makes it possible to optimize the size of the campanile tip to convert light efficiently into the hot spot. The simulations show that the hybrid probe is similar to 540 times more efficient compared with the conventional campanile on average in the 600-900 nm spectral range. (C) 2017 Optical Society of America

机译：在这封信中，我们介绍了新型混合光子 - 等离子体近场探针的设计和仿真。近场光学器件是一种独特的成像工具，可提供具有下降到数十纳米的分辨率的光学图像。该技术的主要局限之一是其低光敏性。通过将锥形等级探针与光子层组合，由衍射光学元件（DOE）组合来解决该问题的杂交探针。 DOE设计用于将圆形探针宽侧的等离子体场与光纤模式匹配。这使得可以优化铃声尖端的尺寸以有效地转换为热点。仿真表明，与600-900nm光谱范围相比，杂交探针与常规铃木轴相比，与传统铃木轴相比的效率相似。（c）2017年光学学会

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《Optics Letters》 |2017年第21期|共4页
作者
Koshelev Alexander; Munechika Keiko; Cabrini Stefano;
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aBeam Technol Inc 22290 Foothill Blvd St 2 Hayward CA 94541 USA;

aBeam Technol Inc 22290 Foothill Blvd St 2 Hayward CA 94541 USA;

Lawrence Berkeley Natl Lab Mol Foundry 1 Cyclotron Rd Berkeley CA 94720 USA;

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正文语种 eng
中图分类计量学;光学;
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1. Hybrid photonic-plasmonic near-field probe for efficient light conversion into the nanoscale hot spot [J] . Koshelev Alexander, Munechika Keiko, Cabrini Stefano Optics Letters . 2017,第21期

机译：杂交光子等近场探头，用于高效光转化进入纳米级热点
2. On-Chip Hybrid Photonic-Plasmonic Light Concentrator for Nanofocusing in an Integrated Silicon Photonics Platform [J] . Luo Ye, Chamanzar Maysamreza, Apuzzo Aniello, Nano letters . 2015,第2期

机译：集成硅光子平台中用于纳米聚焦的片上混合光子-激光聚光器
3. Strongly enhanced light-matter interaction in a hybrid photonic-plasmonic resonator [J] . Yun-Feng Xiao, Yong-Chun Liu, Bei-Bei Li, Physical Review, A. Atomic, molecular, and optical physics . 2012,第3aPta1期

机译：混合光子-等离子体共振器中的光物质相互作用大大增强
4. Efficient pattern modeling of plasmonic nanostructures probed by nanoscale near-field scanning microscope tips with different polarized outputs [C] . Pi-Ju Cheng, Ruei-Han Jiang, Chi Chen, SPIE OPTO Conference . 2018

机译：通过具有不同偏振输出的纳米级近场扫描显微镜探头探测的等离子体纳米结构的高效模式建模
5. Hybrid lead halide perovskites for light energy conversion: Excited state properties and photovoltaic applications. [D] . Manser, Joseph S. 2016

机译：混合卤化钙钛矿用于光能转换：激发态特性和光伏应用。
6. A Fusion-Spliced Near-Field Optical Fiber Probe Using Photonic Crystal Fiber for Nanoscale Thermometry Based on Fluorescence-Lifetime Measurement of Quantum Dots [O] . Takuro Fujii, Yoshihiro Taguchi, Toshiharu Saiki, 2011

机译：基于量子点荧光寿命测量的光子晶体光纤熔融拼接近场纳米探针。
7. Studying light propagation in self-assembled hybrid photonic-plasmonic crystals by fourier microscopy [O] . Galisteo-López J. F., López-García M., Blanco Montes Álvaro, 2013

机译：用傅立叶显微镜研究自组装杂化光子-等离子体晶体中的光传播

Hybrid photonic-plasmonic near-field probe for efficient light conversion into the nanoscale hot spot

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