"Byelobrov, V." . "Grating resonances on periodic arrays of sub-wavelength wires and strips: Historical narrative and possible applications" . "2160-1518" . "Proceedings of the International Conference on Advanced Optoelectronics and Lasers, CAOL 2013" . "Grating resonances on periodic arrays of sub-wavelength wires and strips: Historical narrative and possible applications" . . "1"^^ . . . "Grating resonances on periodic arrays of sub-wavelength wires and strips: Historical narrative and possible applications"@en . "\u010Ctyrok\u00FD, Ji\u0159\u00ED" . . . "Charkov" . "Nosich, A. I." . "2013-09-09+02:00"^^ . "9781479900183" . "76850" . . "I" . "Sudak" . "7"^^ . "This paper reviews the history of discovery and the study of the nature of the high-quality natural modes existing on periodic arrays of sub-wavelength scatterers as specific periodically structured open resonators. Here, the arrays can be finite and infinite, and their elements can be dielectric and metallic. These grating modes (G-modes), like any other natural modes, are the %22parents%22 of corresponding resonances in the electromagnetic-wave scattering and absorption. In the scattering cross-sections, they are usually observed as Fano-shape (double-extremum) resonances, while in the absorption they always display conventional Lorentz-shape peaks. Thanks to high tunability, the G-resonances can potentially supplement or even replace the better known surface-plasmon resonances in the design of nanosensors, nanoantennas, and nanosubstrates for surface-enhanced Raman scattering" . "Coupled integral equations; Optical range; Surface plasmons"@en . "IEEE" . . "RIV/67985882:_____/13:00426756!RIV14-AV0-67985882" . "This paper reviews the history of discovery and the study of the nature of the high-quality natural modes existing on periodic arrays of sub-wavelength scatterers as specific periodically structured open resonators. Here, the arrays can be finite and infinite, and their elements can be dielectric and metallic. These grating modes (G-modes), like any other natural modes, are the %22parents%22 of corresponding resonances in the electromagnetic-wave scattering and absorption. In the scattering cross-sections, they are usually observed as Fano-shape (double-extremum) resonances, while in the absorption they always display conventional Lorentz-shape peaks. Thanks to high tunability, the G-resonances can potentially supplement or even replace the better known surface-plasmon resonances in the design of nanosensors, nanoantennas, and nanosubstrates for surface-enhanced Raman scattering"@en . "4"^^ . "RIV/67985882:_____/13:00426756" . "Natarov, D. M." . "Marciniak, M." . . "Shapoval, O. V." . . . . . . "[77A9D658384E]" . "Grating resonances on periodic arrays of sub-wavelength wires and strips: Historical narrative and possible applications"@en . . . "10.1109/CAOL.2013.6657509" . . "Zinenko, T. L." .