Add to ORKGABSTRACT: We demonstrate numerically that sharp 90° bends and T-splitters can be designed in plasmonic coaxial waveguides at deep-subwavelength scale to operate without reflection and radiation over a broad range of wavelengths, including the telecommunication wavelength of 1.55 μm. We explain the principles of the operation using a transmission line model of the waveguide in the quasi-static limit. The compact bends and T-splitters open up a new avenue for the design of densely integrated optical circuits with minimal crosstalk
We propose and demonstrate experimentally an alternative approach for realizing subwavelength photon...
We have designed, fabricated and characterized surface plasmon waveguides for near infrared light in...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...
We demonstrate that approximately 100% transmission of a strongly localized channel plasmon-polarito...
In this paper, we describe waveguide properties of new optical waveguides made of noble metals and f...
We compare quantitatively the transmission properties of various 60degrees bends carved into a photo...
International audienceThe design, fabrication, characterization, and modeling of basic building bloc...
In this paper, we present a comprehensive numerical study of the wavelength-dependence of transmissi...
International audienceWe consider wavelength-selective splitting of radiation using directional coup...
Abstract: We theoretically investigate the properties of compact couplers between high-index contras...
We report on the characterization of long-range surface plasmon waveguide bends at telecom wavelengt...
A theoretical investigation is presented of the mode propagation and attenuation in a nanometric coa...
To promote the miniaturization and integration of devices, various optical components based on hybri...
Wave diffraction is fundamentally difficult to overcome in the routing and interconnection of photon...
A new criterion for the optimum design of curved dielectric waveguides is proposed. The bends design...
We propose and demonstrate experimentally an alternative approach for realizing subwavelength photon...
We have designed, fabricated and characterized surface plasmon waveguides for near infrared light in...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...
We demonstrate that approximately 100% transmission of a strongly localized channel plasmon-polarito...
In this paper, we describe waveguide properties of new optical waveguides made of noble metals and f...
We compare quantitatively the transmission properties of various 60degrees bends carved into a photo...
International audienceThe design, fabrication, characterization, and modeling of basic building bloc...
In this paper, we present a comprehensive numerical study of the wavelength-dependence of transmissi...
International audienceWe consider wavelength-selective splitting of radiation using directional coup...
Abstract: We theoretically investigate the properties of compact couplers between high-index contras...
We report on the characterization of long-range surface plasmon waveguide bends at telecom wavelengt...
A theoretical investigation is presented of the mode propagation and attenuation in a nanometric coa...
To promote the miniaturization and integration of devices, various optical components based on hybri...
Wave diffraction is fundamentally difficult to overcome in the routing and interconnection of photon...
A new criterion for the optimum design of curved dielectric waveguides is proposed. The bends design...
We propose and demonstrate experimentally an alternative approach for realizing subwavelength photon...
We have designed, fabricated and characterized surface plasmon waveguides for near infrared light in...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...