. "Van Dorpe, P." . . "Kekapture, R. D." . . "Brongersma, M. L." . . . . "[F0318614BB00]" . "Applied Physics Letters" . "Mid-IR plasmonic antennas on silicon-rich oxinitride absorbing substrates: Nonlinear scaling of resonance wavelengths with antenna length"@en . . "Mid-IR plasmonic antennas on silicon-rich oxinitride absorbing substrates: Nonlinear scaling of resonance wavelengths with antenna length"@en . "0003-6951" . "3"^^ . "Sonnenfraud, Y." . . . "Barnard, E. S." . "Mid-IR plasmonic antennas on silicon-rich oxinitride absorbing substrates: Nonlinear scaling of resonance wavelengths with antenna length" . . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . . . "Mid-IR plasmonic antennas on silicon-rich oxinitride absorbing substrates: Nonlinear scaling of resonance wavelengths with antenna length" . "White, J. S." . "14310" . "326277" . . "OPTICAL ANTENNAS; NANOANTENNAS; RESONATORS; SINGLE; BOWTIE; FILMS"@en . "Brinek, L." . . . "Zlamal, J." . "Maier, S. A." . . "Tomanec, O." . "P(KAN400100701), P(LC06040), Z(MSM0021622410), Z(MSM0021630508)" . "We report on the resonant properties of platinum dipole antennas fabricated on a silicon-rich-oxinitride thin film that exhibits significant absorption in the mid-infrared of the electromagnetic spectrum (lambda(-1) approximate to 1100 cm(-1)). A nonlinear scaling between the resonant wavelength and the antenna length has been found and quantitatively confirmed by full-field electromagnetic simulations. The resonant wavelength increases linearly with antenna length for small lengths and tends to saturate for large ones (length > 4 mu m). This saturation effect is attributed to the coupling of a geometrical antenna resonance and an absorption resonance of the substrate material."@en . . . "1"^^ . "95" . "RIV/00216224:14310/09:00038093" . "000273037700048" . "RIV/00216224:14310/09:00038093!RIV11-MSM-14310___" . . "Sikola, T." . . "We report on the resonant properties of platinum dipole antennas fabricated on a silicon-rich-oxinitride thin film that exhibits significant absorption in the mid-infrared of the electromagnetic spectrum (lambda(-1) approximate to 1100 cm(-1)). A nonlinear scaling between the resonant wavelength and the antenna length has been found and quantitatively confirmed by full-field electromagnetic simulations. The resonant wavelength increases linearly with antenna length for small lengths and tends to saturate for large ones (length > 4 mu m). This saturation effect is attributed to the coupling of a geometrical antenna resonance and an absorption resonance of the substrate material." . "Huml\u00ED\u010Dek, Josef" . "25" . "13"^^ . "Lei, D. Y." . .