6 - Plasmonics
Published online by Cambridge University Press: 06 July 2019
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- Graphene Photonics , pp. 178 - 215Publisher: Cambridge University PressPrint publication year: 2018
References
Larsson, J., “Electromagnetics from a quasistatic perspective,” American Journal of Physics, Vol. 75, pp. 230–239 (2007).Google Scholar
Jablan, M., Buljan, H., and Soljačić, M., “Plasmonics in graphene at infrared frequencies,” Physical Review B, Vol. 80, 245435 (2009).Google Scholar
Mikhailov, S. A. and Ziegler, K., “New electromagnetic mode in graphene,” Physical Review Letters, Vol. 99, 016803 (2007).Google Scholar
Lin, I. T. and Liu, J. M., “Coupled surface plasmon modes of graphene in close proximity to a plasma layer,” Applied Physics Letters, Vol. 103, 201104 (2013).Google Scholar
Profumo, R. E. V., Asgari, R., Polini, M., and MacDonald, A. H., “Double-layer graphene and topological insulator thin-film plasmons,” Physical Review B, Vol. 85, 085443 (2012).Google Scholar
Anatoly, V. Z. and Igor, I. S., “Near-field photonics: Surface plasmon polaritons and localized surface plasmons,” Journal of Optics A: Pure and Applied Optics, Vol. 5, p. S16 (2003).Google Scholar
Pohl, D. W., Denk, W., and Lanz, M., “Optical stethoscopy: Image recording with resolution λ/20,” Applied Physics Letters, Vol. 44, pp. 651–653 (1984).Google Scholar
Zenhausern, F., O’Boyle, M. P., and Wickramasinghe, H. K., “Apertureless near‐field optical microscope,” Applied Physics Letters, Vol. 65, pp. 1623–1625 (1994).Google Scholar
Chen, J., Badioli, M., Alonso-Gonzalez, P., et al., “Optical nano-imaging of gate-tunable graphene plasmons,” Nature, Vol. 487, pp. 77–81 (2012).Google Scholar
Fei, Z., Rodin, A. S., Andreev, G. O., et al., “Gate-tuning of graphene plasmons revealed by infrared nano-imaging,” Nature, Vol. 487, pp. 82–85 (2012).Google Scholar
Fei, Z., Rodin, A. S., Gannett, W., et al., “Electronic and plasmonic phenomena at graphene grain boundaries,” Nature Nanotechnology, Vol. 8, pp. 821–825 (2013).CrossRefGoogle ScholarPubMed
Nikitin, A. Y., Guinea, F., García-Vidal, F. J., and Martín-Moreno, L., “Edge and waveguide terahertz surface plasmon modes in graphene microribbons,” Physical Review B, Vol. 84, 161407 (2011).Google Scholar
Fei, Z., Goldflam, M. D., Wu, J. S., et al., “Edge and surface plasmons in graphene nanoribbons,” Nano Letters, Vol. 15, pp. 8271–8276 (2015).Google Scholar
Strait, J. H., Nene, P., Chan, W. M., et al., “Confined plasmons in graphene microstructures: Experiments and theory,” Physical Review B, Vol. 87, 241410 (2013).Google Scholar
Yan, H., Low, T., Zhu, W., et al., “Damping pathways of mid-infrared plasmons in graphene nanostructures,” Nature Photonics, Vol. 7, pp. 394–399 (2013).Google Scholar
Thongrattanasiri, S., Manjavacas, A., and García de Abajo, F. J., “Quantum finite-size effects in graphene plasmons,” ACS Nano, Vol. 6, pp. 1766–1775 (2012).Google Scholar
Lin, I. T., Liu, J. M., Tsai, H. C., et al., “Family of graphene-assisted resonant surface optical excitations for terahertz devices,” Scientific Reports, Vol. 6, 35467 (2016).Google Scholar