Optical fiber plasmonic lens for near-field focusing fabricated through focused ion beam

机译：通过聚焦离子束制造的用于近场聚焦的光纤等离子透镜

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We report on numerical simulations and fabrication of an optical fiber plasmonic lens for near-field focusing applications. The plasmonic lens consists of an Archimedean spiral structure etched through a 100 nm-thick Au layer on the tip of a single-mode SM600 optical fiber operating at a wavelength of 632.8 nm. Three-dimensional finite-difference time-domain computations show that the relative electric field intensity of the focused spot increases 2.1 times when the number of turns increases from 2 to 12. Furthermore, a reduction of the intensity is observed when the initial inner radius is increased. The optimized plasmonic lens focuses light into a spot with a full-width at half-maximum of 182 nm, beyond the diffraction limit. The lens was fabricated by focused ion beam milling, with a 200 nm slit width.

机译：我们报告了用于近场聚焦应用的光纤等离激元透镜的数值模拟和制造。等离子透镜由阿基米德螺旋结构构成，该结构通过在波长为632.8 nm的单模SM600光纤尖端上的100 nm厚的Au层蚀刻而成。三维有限差分时域计算表明，当匝数从2增加到12时，焦点的相对电场强度增加2.1倍。此外，当初始内半径为时，强度会减小。增加。经过优化的等离子透镜将光聚焦到最大宽度为182 nm的半峰处，超过衍射极限。该透镜是通过聚焦离子束铣削加工而成的，缝隙宽度为200 nm。

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来源
《Advanced fabrication technologies for microano optics and photonics X》|2017年|101150D.1-101150D.6|共6页
会议地点 San Francisco(US)
作者
Karen Sloyan; Henrik Melkonyan; Paulo Moreira; Marcus S. Dahlem;
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作者单位

Nano-Optics and Optoelectronics Research Laboratory, Masdar Institute, Abu Dhabi, UAE;

Nano-Optics and Optoelectronics Research Laboratory, Masdar Institute, Abu Dhabi, UAE;

Nano-Optics and Optoelectronics Research Laboratory, Masdar Institute, Abu Dhabi, UAE;

Nano-Optics and Optoelectronics Research Laboratory, Masdar Institute, Abu Dhabi, UAE;

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正文语种 eng
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关键词
Surface plasmon polariton; plasmonic lens; near-field focusing; optical fiber lens; focused ion beam;

机译：表面等离激元极化；等离子透镜近场聚焦；光纤透镜；聚焦离子束;

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专利

1. Efficient fiber-to-waveguide coupling by a lens on the end of the optical fiber fabricated by focused ion beam milling [J] . F. Schiappelli, R. Kumar, M. Prasciolu, Microelectronic Engineering . 2004,第Jun期

机译：通过聚焦离子束铣削制造的光纤末端上的透镜，通过透镜实现有效的光纤到波导耦合
2. Enhancement of Optical Fiber Coupling Based on Collimated and Focused Laser Diode Beam with Micro Aspherical Plano-Convex Lens Fabricated by Excimer Laser [J] . Hoque Muttahid Ull Fiber and Integrated Optics . 2018,第1a6期

机译：基于准直和聚焦激光二极管梁的光纤耦合提高了基于准分子激光器制造的微球形平面凸透镜的光纤耦合
3. Hybrid microdiffractive-microrefractive lens with a continuous relief fabricated by use of focused-ion-beam milling for single-mode fiber coupling [J] . Yong-qi Fu, Ngoi Kok Ann Bryan Applied optics . 2001,第32期

机译：通过使用聚焦离子束铣削制造用于单模光纤耦合的具有连续浮雕的混合微衍射-微折射透镜
4. Optical fiber plasmonic lens for near-field focusing fabricated through focused ion beam [C] . Karen Sloyan, Henrik Melkonyan, Paulo Moreira, Conference on advanced fabrication technologies for micro/nano optics and photonics X . 2017

机译：用于近场聚焦的光纤等级透镜通过聚焦离子束制造
5. Darkfield imaging with a plasmonic focusing lens: Antenna theory for near-field scanning optical microscopes. [D] . Tang, Japeck. 2009

机译：等离子聚焦透镜的暗场成像：近场扫描光学显微镜的天线理论。
6. Comparative study of plasmonic antennas fabricated by electron beam and focused ion beam lithography [O] . Michal Horák, Kristýna Bukvišová, Vojtěch Švarc, -1

机译：电子束与聚焦离子束光刻技术制备的等离激元天线的比较研究
7. Nano-slit probes for near-field optical microscopy fabricated by focused ion beams [O] . Danzebrink H.U., Dziomba T., Sulzbach T., 1999

机译：用于近场光学显微镜的纳米狭缝探针，由聚焦离子束制成
8. Experimental investigations of plasma lens focusing and plasma channel transport of heavy ion beams [R] . Tauschwitz, T. , Yu, S. S. , Eylon, S. , 1995

机译：等离子体透镜聚焦和重离子束等离子体通道传输的实验研究

Optical fiber plasmonic lens for near-field focusing fabricated through focused ion beam

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