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Vasista AB, Tripathi RPN, Chaubey SK, et al. Doughnut-shaped emission from vertical organic nanowire coupled to thin plasmonic film. Opt Lett. 2018;43(4):923-926doi: 10.1364/OL.43.000923.
Vasista, A. B., Tripathi, R. P. N., Chaubey, S. K., Tiwari, S., & Kumar, G. V. P. (2018). Doughnut-shaped emission from vertical organic nanowire coupled to thin plasmonic film. Optics letters, 43(4), 923-926. https://doi.org/10.1364/OL.43.000923
Vasista, Adarsh B, et al. "Doughnut-shaped emission from vertical organic nanowire coupled to thin plasmonic film." Optics letters vol. 43,4 (2018): 923-926. doi: https://doi.org/10.1364/OL.43.000923
Vasista AB, Tripathi RPN, Chaubey SK, Tiwari S, Kumar GVP. Doughnut-shaped emission from vertical organic nanowire coupled to thin plasmonic film. Opt Lett. 2018 Feb 15;43(4):923-926. doi: 10.1364/OL.43.000923. PMID: 29444028.
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Opt Lett. 2018 Feb 15;43(4):923-926. doi: 10.1364/OL.43.000923.

Doughnut-shaped emission from vertical organic nanowire coupled to thin plasmonic film.

Optics letters

Adarsh B Vasista, Ravi P N Tripathi, Shailendra K Chaubey, Sunny Tiwari, G V Pavan Kumar

PMID: 29444028 DOI: 10.1364/OL.43.000923

Abstract

Vertical nanowires facilitate an innovative mechanism to channel the optical field in the orthogonal direction and act as a nanoscale light source. Subwavelength, vertically oriented nanowire platforms, both of plasmonic and semiconducting variety, can facilitate interesting far-field emission profiles and potentially carry orbital angular momentum states. Motivated by these prospects, in this Letter, we show how a hybrid plasmonic-organic platform can be harnessed to engineer far-field radiation. The system that we have employed is an organic nanowire made of diaminoanthroquinone grown on a plasmonic gold film. We experimentally and numerically studied angular distribution of surface plasmon polariton mediated emission from a single, vertical organic nanowire by utilizing evanescent excitation and Fourier plane microscopy. Photoluminescence and elastic scattering from a single nanowire was analyzed individually in terms of inplane momentum states of the outcoupled photons. We found that the emission is doughnut-shaped in both photoluminescence and elastic scattering regimes. We anticipate that the discussed results can be relevant in designing efficient, polariton-mediated nanoscale photon sources that can carry orbital angular momentum states.

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