By Mikhail A. Noginov, Graeme Dewar, Martin W. McCall, Nikolay I. Zheludev
The sector of complicated photonic media is actually interdisciplinary, unavoidably overarching a number of subject matters of physics, chemistry, nanotechnology, fabrics technology, and engineering. In Tutorials in complicated Photonic Media, the editors collect 19 crucial chapters written by means of major scientists of their respective fields. those tutorials hide the elemental actual houses of advanced photonic media and the underlying thoughts that represent breakthroughs in sleek optics. Tutorials in advanced Photonic Media is helping scholars, engineers, and scientists getting into the sphere to familiarize yourself with the interrelated features of the topic. It additionally serves good as a supplemental textual content in introductory and complicated classes on optical fabrics, nanotechnology, actual optics, or photonic metamaterials. The coated themes comprise: nanoplasmonics and nanophotonics, chiral media, unfavorable index of refraction, random lasers, propagation of electromagnetic waves in scattering media, basic physics of photonic fabrics, natural photonic fabrics, photonic crystals, metamaterials, magneto-optics, optical vortexes, holography, and gradual gentle.
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Additional info for Tutorials in Complex Photonic Media (SPIE Press Monograph Vol. PM194)
See Ref. 5 µm, so it is clear that the community is fast closing in on the optical range. Metamaterials offer tremendously exciting possibilities, and no doubt more applications will emerge over the next few years. Although we do not claim to have been exhaustive in this review, it is hoped that by focusing on the underlying principles of negative refraction, we have prepared the reader to appreciate these developments. 1 Appendix I: The (ω) of a square wire array The notion that the electromagnetic response of the wire array of Fig.
McCall and G. , Proc. SPIE 5218, 156–165 (2003). 19. M. Shapiro, G. Shvets, J. R. Sirigiri, and R. J. Temkin, “Spatial dispersion in metamaterials with negative dielectric permittivity and its effect on surface waves,” Opt. Lett. 31, 2051–2053 (2006). 20. J. B. Pendry, A. J. Holden, D. J. Robbins, and W. J. Stewart, “Low frequency plasmons in thin-wire structures,” J. : Condens. Matter 10, 4785–4809 (1998). 21. G. Dewar, “The applicability of ferrimagnetic hosts to nanostructured negative index of refraction (left-handed) materials,” in Complex Mediums III: Beyond Linear Isotropic Dielectrics, A.
J. B. Pendry, A. J. Holden, D. J. Robbins, and W. J. Stewart, “Low frequency plasmons in thin-wire structures,” J. : Condens. Matter 10, 4785–4809 (1998). 21. G. Dewar, “The applicability of ferrimagnetic hosts to nanostructured negative index of refraction (left-handed) materials,” in Complex Mediums III: Beyond Linear Isotropic Dielectrics, A. Lakhtakia, G. Dewar, and M. W. , Proc. SPIE 4806, 156–166 (2002). 22. A. L. Pokrovsky and A. L. Efros, “Electrodynamics of metallic photonic crystals and the problem of left-handed materials,” Phys.
Tutorials in Complex Photonic Media (SPIE Press Monograph Vol. PM194) by Mikhail A. Noginov, Graeme Dewar, Martin W. McCall, Nikolay I. Zheludev