These are the sources and citations used to research lit rev. This bibliography was generated on Cite This For Me on

  • Journal

    Borovsky, J. E., Delzanno, G. L., Valdivia, J. A., Moya, P. S., Stepanova, M., Birn, J., Blum, L. W., Lotko, W. and Hesse, M.

    Outstanding questions in magnetospheric plasma physics: The pollenzo view

    2020 - Journal of Atmospheric and Solar-Terrestrial Physics

    In-text: (Borovsky et al., 2020)

    Your Bibliography: Borovsky, J., Delzanno, G., Valdivia, J., Moya, P., Stepanova, M., Birn, J., Blum, L., Lotko, W. and Hesse, M., 2020. Outstanding questions in magnetospheric plasma physics: The pollenzo view. Journal of Atmospheric and Solar-Terrestrial Physics, 208, p.105377.

  • Journal

    Cambiasso, J., Grinblat, G., Li, Y., Rakovich, A., Cortés, E. and Maier, S. A.

    Bridging the Gap between Dielectric Nanophotonics and the Visible Regime with Effectively Lossless Gallium Phosphide Antennas

    2017 - Nano Letters

    In-text: (Cambiasso et al., 2017)

    Your Bibliography: Cambiasso, J., Grinblat, G., Li, Y., Rakovich, A., Cortés, E. and Maier, S., 2017. Bridging the Gap between Dielectric Nanophotonics and the Visible Regime with Effectively Lossless Gallium Phosphide Antennas. Nano Letters, 17(2), pp.1219-1225.

  • Journal

    Du, G. X., Mori, T., Suzuki, M., Saito, S., Fukuda, H. and Takahashi, M.

    Evidence of localized surface plasmon enhanced magneto-optical effect in nanodisk array

    2010 - Applied Physics Letters

    In-text: (Du et al., 2010)

    Your Bibliography: Du, G., Mori, T., Suzuki, M., Saito, S., Fukuda, H. and Takahashi, M., 2010. Evidence of localized surface plasmon enhanced magneto-optical effect in nanodisk array. Applied Physics Letters, 96(8), p.081915.

  • Journal

    Mendonça, J. T. and Shukla, P. K.

    Time Refraction and Time Reflection: Two Basic Concepts

    2002 - Physica Scripta

    In-text: (Mendonça and Shukla, 2002)

    Your Bibliography: Mendonça, J. and Shukla, P., 2002. Time Refraction and Time Reflection: Two Basic Concepts. Physica Scripta, 65(2), pp.160-163.

  • Journal

    Smirnova, D. and Kivshar, Y. S.

    Multipolar nonlinear nanophotonics

    2016 - Optica

    In-text: (Smirnova and Kivshar, 2016)

    Your Bibliography: Smirnova, D. and Kivshar, Y., 2016. Multipolar nonlinear nanophotonics. Optica, 3(11), p.1241.

  • Journal

    Sortino, L., Zotev, P. G., Mignuzzi, S., Cambiasso, J., Schmidt, D., Genco, A., Aßmann, M., Bayer, M., Maier, S. A., Sapienza, R. and Tartakovskii, A. I.

    Enhanced light-matter interaction in an atomically thin semiconductor coupled with dielectric nano-antennas

    2019 - Nature Communications

    In-text: (Sortino et al., 2019)

    Your Bibliography: Sortino, L., Zotev, P., Mignuzzi, S., Cambiasso, J., Schmidt, D., Genco, A., Aßmann, M., Bayer, M., Maier, S., Sapienza, R. and Tartakovskii, A., 2019. Enhanced light-matter interaction in an atomically thin semiconductor coupled with dielectric nano-antennas. Nature Communications, 10(1), pp.1-7.

  • Journal

    Vincenti, M. A., de Ceglia, D. and Scalora, M.

    ENZ materials and anisotropy: enhancing nonlinear optical interactions at the nanoscale

    2020 - Optics Express

    In-text: (Vincenti, de Ceglia and Scalora, 2020)

    Your Bibliography: Vincenti, M., de Ceglia, D. and Scalora, M., 2020. ENZ materials and anisotropy: enhancing nonlinear optical interactions at the nanoscale. Optics Express, 28(21), pp.1-7.

  • Journal

    Zhou, Y., Alam, M. Z., Karimi, M., Upham, J., Reshef, O., Liu, C., Willner, A. E. and Boyd, R. W.

    Broadband frequency translation through time refraction in an epsilon-near-zero material

    2020 - Nature Communications

    In-text: (Zhou et al., 2020)

    Your Bibliography: Zhou, Y., Alam, M., Karimi, M., Upham, J., Reshef, O., Liu, C., Willner, A. and Boyd, R., 2020. Broadband frequency translation through time refraction in an epsilon-near-zero material. Nature Communications, 11(1), pp.1-6.

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