Overcoming refractive index limit of mesoscale light focusing by means of specular-reflection photonic nanojet

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Overcoming refractive index limit of mesoscale light focusing by means of specular-reflection photonic nanojet

机译：通过镜面反射光子纳米射精克服Mesoscale光聚焦的折射率极限

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The physical origin of subwavelength photonic nanojet in specular-reflection mode (s-PNJ) is theoretically considered. This specific type of photonic nanojet (PNJ) emerges upon double focusing of a plane optical wave by a transparent dielectric microparticle located near a flat mirror. For the first time, to the best of our knowledge, we report a unique property of s-PNJ for increasing its focal length and intensity using circular-shaped microparticles with a refractive index ratio exceeding the known limiting value that fundamentally distinguishes s-PNJ from regular PNJ behavior. This may drastically increase the trapping potential of PNJ-based optical tweezers. (C) 2020 Optical Society of America

机译：理论上考虑了镜面反射模式（S-PNJ）中亚壳体光子纳米喷嘴的物理来源。这种特定类型的光子纳米喷嘴（PNJ）在通过位于平坦镜附近的透明介电微粒的双重聚焦平面光波时出现。首次，我们的知识首次，我们报告了S-PNJ的独特性，用于使用圆形微粒的焦距和强度提高具有超过已知限制值的圆形微粒，从根本上区分S-PNJ 常规pnj行为。这可能会大大增加基于PNJ的光学镊子的捕获电位。（c）2020美国光学学会

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《Optics Letters 》 |2020年第14期| 共4页
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中图分类计量学 ; 光学 ;
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1. Overcoming refractive index limit of mesoscale light focusing by means of specular-reflection photonic nanojet [J] . Optics Letters . 2020 ,第14期

机译：通过镜面反射光子纳米射精克服Mesoscale光聚焦的折射率极限
2. Focusing of light by negative refraction in a photonic crystal slab superlens on silicon-on-insulator substrate [J] . Takashi Matsumoto, Kun-Sun Eom, Toshihiko Baba Optics Letters . 2006 ,第18期

机译：绝缘体上硅衬底上的光子晶体平板超透镜中负折射引起的光聚焦
3. Focusing of Scanning Light Beams below the Diffraction Limit without Near-Field Spatial Control Using a Saturable Absorber and a Negative-Refraction Material [J] . A. Husakou, J. Herrmann Physical review letters . 2006 ,第1期

机译：使用可饱和吸收剂和负折射材料，无需进行近场空间控制即可将衍射光束聚焦在衍射极限以下
4. Superfocusing of light beams below the diffraction limit by photonic crystals with negative refraction [C] . Husakou, A., Herrmann, . 2005

机译：负折射的光子晶体对低于衍射极限的光束进行超聚焦
5. Improving the detection limit of planar 2D photonic crystal slab refractive index sensors. [D] . Nicholaou, Costa. 2013

机译：提高了平面二维光子晶体平板折射率传感器的检测极限。
6. Overstepping the upper refractive index limit to form ultra-narrow photonic nanojets [O] . Guoqiang Gu, Jun Song, Hongda Liang, -1

机译：超过折射率上限以形成超窄光子纳米射流
7. Overcoming refractive index limit of mesoscale light focusing by means of specular-reflection photonic nanojet [O] . Yury E. Geints, Alexander A. Zemlyanov, Igor V. Minin, 2020

机译：通过镜面反射光子纳米射精克服Mesoscale光聚焦的折射率极限

Overcoming refractive index limit of mesoscale light focusing by means of specular-reflection photonic nanojet

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