Chiroptical transmission through a plasmonic helical traveling-wave nanoantenna, towards on-tip chiroptical probes

Wang Mengjia; Salut Roland; Suarez Miguel Angel; Martin Nicolas; Grosjean Thierry

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Chiroptical transmission through a plasmonic helical traveling-wave nanoantenna, towards on-tip chiroptical probes

机译：通过等离子体螺旋行驶波纳米南诺纳米南尾探测的脊柱纤维行程探测器

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Resonant plasmonic helices have been widely utilized for locally enhancing and tailoring optical chirality. Here we investigate their nonresonant operation through the recently introduced concept of a plasmonic helical "traveling-wave" nanoantenna. Relying on the coupling of a nonresonant plasmonic helix and a nano-aperture, the helical traveling-wave nanoantenna transmits circularly polarized light with the same handedness as the helix and blocks the other, with a measured dissymmetry factor larger than 1.92 (maximum value of 2). This chiroptical transmission is spatially localized, spectrally broadband, and background-free. Finally, we demonstrate the possibility to engineer such a plasmonic helical nanoantenna at the apex of a sharp tip typically used in scanning near-field microscopies, thus opening the route for moveable, broadband, and background-free chiroptical probes. (C) 2019 Optical Society of America

机译：共振等离子体螺旋已被广泛用于局部增强和裁缝光学手性。在这里，我们通过最近引入的等离子体螺旋“旅行波”纳米南纳纳的概念来调查它们的非伦理操作。依赖于非族代等离子体螺旋和纳米孔的耦合，螺旋行波纳米纳米纳米纳透射圆偏振光，与螺旋相同的手，并块另一个，测得的不对称因子大于1.92（最大值2 ）。这种毛线光源传输是空间局部的，光谱宽带和背景。最后，我们展示了在通常用于扫描近场显微镜的尖锐尖端的顶点上工程师的可能性，从而打开可移动的，宽带和背景无毛孔探针的路线。（c）2019年光学学会

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《Optics Letters》 |2019年第19期|共4页
作者
Wang Mengjia; Salut Roland; Suarez Miguel Angel; Martin Nicolas; Grosjean Thierry;
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Univ Bourgogne Franche Comte FEMTO ST Inst UMR 6174 CNRS Besancon France;

Univ Bourgogne Franche Comte FEMTO ST Inst UMR 6174 CNRS Besancon France;

Univ Bourgogne Franche Comte FEMTO ST Inst UMR 6174 CNRS Besancon France;

Univ Bourgogne Franche Comte FEMTO ST Inst UMR 6174 CNRS Besancon France;

Univ Bourgogne Franche Comte FEMTO ST Inst UMR 6174 CNRS Besancon France;

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正文语种 eng
中图分类计量学;光学;
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专利

1. Chiroptical transmission through a plasmonic helical traveling-wave nanoantenna, towards on-tip chiroptical probes [J] . Wang Mengjia, Salut Roland, Suarez Miguel Angel, Optics Letters . 2019,第19期

机译：通过等离子体螺旋行驶波纳米南诺纳米南尾探测的脊柱纤维行程探测器
2. Supramolecular chiroptical switching of helical-sense preferences through the two-way intramolecular transmission of a single chiral source [J] . Ryo Katoono, Keiichi Kusaka, Yuki Tanaka, Organic & biomolecular chemistry . 2018,第7期

机译：通过单个手性源的双向分子内传输，螺旋感觉偏好的超分子手性切换
3. Dynamic Molecular Propeller: Supramolecular Chirality Sensing by Enhanced Chiroptical Response through the Transmission of Point Chirality to Mobile Helicity [J] . Ryo Katoono, Hidetoshi Kawai, Kenshu Fujiwara, Journal of the American Chemical Society . 2009,第46期

机译：动态分子螺旋桨：通过点手性向移动螺旋传递的增强的手性响应，超分子手性传感。
4. Synthesis and Tunable Chiroptical Properties of Amphiphilic Helical Polyacetylenes [C] . Kevin K. L. Cheuk, Ben Zhong Tang, American Chemical Society(ACS), American Chemical Society National Meeting . 2005

机译：两亲螺旋螺旋聚乙炔的合成与可调谐性含压性能
5. Design and synthesis of organic chiroptical switches: Part I. Improvement of the chiroptical liquid crystal switch by modifying the structure of [3.2.1]bicyclooctanone. Part II. Design and synthesis of photoresponsive polyisocyanates. [D] . Li, Jie. 1999

机译：有机手性开关的设计和合成：第一部分，通过修改[3.2.1]双环辛酮的结构来改进手性液晶开关。第二部分设计和合成光响应性多异氰酸酯。
6. Subwavelength polarization optics via individual and coupled helical traveling-wave nanoantennas [O] . Mengjia Wang, Roland Salut, Huihui Lu, 2019

机译：通过单个和耦合的螺旋行波纳米天线的亚波长偏振光学器件
7. Amplification of Molecular Chiroptical Effect by Low-loss Dielectric Nanoantennas [O] . Zhang, Weixuan, Wu, Tong, Wang, Rongyao, 2017

机译：低损耗介质对分子光学效应的放大纳米天线

Chiroptical transmission through a plasmonic helical traveling-wave nanoantenna, towards on-tip chiroptical probes

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