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Opt Express


Title:'Optical tentacle' of suspended polymer micro-rings on a multicore fiber facet for vapor sensing
Author(s):Liu Q; Zhan Y; Zhang S; Feng S; Wang X; Sun W; Ye J; Zhang Y;
Address:
Journal Title:Opt Express
Year:2020
Volume:28
Issue:8
Page Number:11730 - 11741
DOI: 10.1364/OE.390145
ISSN/ISBN:1094-4087 (Electronic) 1094-4087 (Linking)
Abstract:"We designed a new type of gas sensor, an optical tentacle, made of highly integrated polymer micro-ring resonators in three-dimensional space on the tiny end-facet of a multicore optical fiber. Two pairs of three polymer micro-ring resonators were hung symmetrically on both sides of three suspended micro-waveguides as the sensing units. The micro-waveguides interlace to form a three-layer nested configuration, which makes the multicore optical fiber a 'tentacle' for vapors of volatile organic compounds. Both experiments and theoretical simulation confirmed that the symmetrical coupling of multiple pairs of rings with the micro-waveguide had better resonance than the single ring setup. This is because the symmetrical light modes in the waveguides couple with the rings separately. All the optical micro-components were fabricated by the two-photon lithography technology on the end facet of multicore optical fiber. The optical tentacle shows good sensitivity and reversibility. This approach can also be adopted for sensor array design on a chip. Furthermore, optical sensors that can sense vapors with multiple constituents may be achieved in the future by adding selective sensitive materials to or on the surface of the rings"
Keywords:
Notes:"PubMed-not-MEDLINELiu, Qiaoqiao Zhan, Yuxin Zhang, Siyao Feng, Shengfei Wang, Xinke Sun, Wenfeng Ye, Jiasheng Zhang, Yan eng 2020/05/15 Opt Express. 2020 Apr 13; 28(8):11730-11741. doi: 10.1364/OE.390145"

 
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