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Journal Abstract Search

123 related items for PubMed ID: 32225618

  • 1. Influence of the graphene layer on the strong coupling in the hybrid Tamm-plasmon polariton mode.
    Buzavaite-Verteliene E, Valavicius A, Grineviciute L, Tolenis T, Lukose R, Niaura G, Balevicius Z.
    Opt Express; 2020 Mar 30; 28(7):10308-10319. PubMed ID: 32225618
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  • 2. Hybrid Tamm-surface plasmon polariton mode for highly sensitive detection of protein interactions.
    Buzavaite-Verteliene E, Plikusiene I, Tolenis T, Valavicius A, Anulyte J, Ramanavicius A, Balevicius Z.
    Opt Express; 2020 Sep 28; 28(20):29033-29043. PubMed ID: 33114809
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  • 4. An Optical Fiber Refractive Index Sensor Based on the Hybrid Mode of Tamm and Surface Plasmon Polaritons.
    Zhang X, Zhu XS, Shi YW.
    Sensors (Basel); 2018 Jul 03; 18(7):. PubMed ID: 29970804
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  • 7. Strong longitudinal coupling of Tamm plasmon polaritons in graphene/DBR/Ag hybrid structure.
    Hu J, Yao E, Xie W, Liu W, Li D, Lu Y, Zhan Q.
    Opt Express; 2019 Jun 24; 27(13):18642-18652. PubMed ID: 31252804
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  • 8. Tuning of the polariton modes induced by longitudinal strong coupling in the graphene hybridized DBR cavity.
    Zhang K, Liu Y, Xia F, Li S, Kong W.
    Opt Lett; 2020 Jul 01; 45(13):3669-3672. PubMed ID: 32630926
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  • 9. Hybrid modes in gold nanoslit arrays on Bragg nanostructures and their application for sensitive biosensors.
    Lo SC, Lee CW, Chern RL, Wei PK.
    Opt Express; 2022 Aug 15; 30(17):30494-30506. PubMed ID: 36242152
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  • 10. Wavelength- and Angle-Selective Photodetectors Enabled by Graphene Hot Electrons with Tamm Plasmon Polaritons.
    Huang CH, Wu CH, Bikbaev RG, Ye MJ, Chen CW, Wang TJ, Timofeev IV, Lee W, Chen KP.
    Nanomaterials (Basel); 2023 Feb 10; 13(4):. PubMed ID: 36839064
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  • 11. Tunable dual-band mid-infrared absorber based on the coupling of a graphene surface plasmon polariton and Tamm phonon-polariton.
    Han J, Shao Y, Chen C, Wang J, Gao Y, Gao Y.
    Opt Express; 2021 May 10; 29(10):15228-15238. PubMed ID: 33985226
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  • 12. Strong coupling of optical interface modes in a 1D topological photonic crystal heterostructure/Ag hybrid system.
    Hu J, Liu W, Xie W, Zhang W, Yao E, Zhang Y, Zhan Q.
    Opt Lett; 2019 Nov 15; 44(22):5642-5645. PubMed ID: 31730127
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  • 13. All-Plasmonic Switching Effect in the Graphene Nanostructures Containing Quantum Emitters.
    Gubin MY, Leksin AY, Shesterikov AV, Prokhorov AV, Volkov VS.
    Nanomaterials (Basel); 2020 Jan 09; 10(1):. PubMed ID: 31936492
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  • 17. Suppressing the radiation loss by hybrid Tamm-surface plasmon BIC modes.
    Qiao T, Hu M, Wang Q, Xiao M, Zhu S, Liu H.
    Opt Express; 2024 Jun 03; 32(12):21497-21505. PubMed ID: 38859502
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  • 19. Large-area, freestanding, single-layer graphene-gold: a hybrid plasmonic nanostructure.
    Iyer GR, Wang J, Wells G, Guruvenket S, Payne S, Bradley M, Borondics F.
    ACS Nano; 2014 Jun 24; 8(6):6353-62. PubMed ID: 24860924
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  • 20. Substrate phonon-mediated plasmon hybridization in coplanar graphene nanostructures for broadband plasmonic circuits.
    Yang X, Kong XT, Bai B, Li Z, Hu H, Qiu X, Dai Q.
    Small; 2015 Feb 04; 11(5):591-6. PubMed ID: 25273326
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