53 research outputs found
Efficient light coupling into a photonic crystal waveguide with flatband slow mode
We design an efficient coupler to transmit light from a strip waveguide into
the flatband slow mode of a photonic crystal waveguide with ring-shaped holes.
The coupler is a section of a photonic crystal waveguide with a higher group
velocity, obtained by different ring dimensions. We demonstrate coupling
efficiency in excess of 95% over the 8 nm wavelength range where the photonic
crystal waveguide exhibits a quasi constant group velocity vg = c/37. An
analysis based on the small Fabry-P\'erot resonances in the simulated
transmission spectra is introduced and used for studying the effect of the
coupler length and for evaluating the coupling efficiency in different parts of
the coupler. The mode conversion efficiency within the coupler is more than
99.7% over the wavelength range of interest. The parasitic reflectance in the
coupler, which depends on the propagation constant mismatch between the slow
mode and the coupler mode, is lower than 0.6% within this wavelength range.Comment: 11 pages, 7 figures, submitted to Photonics and Nanostructures -
Fundamentals and Application
Nanolaminate structures fabricated by ALD for reducing propagation losses and enhancing the third-order optical nonlinearities
We demonstrate a novel atomic layer deposition (ALD) process to make high quality nanocrystalline titanium dioxide (TiO2) and zinc oxide (ZnO) with intermediate Al2O3 layers to limit the crystal size. The waveguide losses of TiO2/Al2O3 nanolaminates measured using the prism coupling method for both 633 nm and 1551 nm wavelengths are as low as 0.2 ± 0.1 dB/mm with the smallest crystal size. We also show that the third-order optical nonlinearity in ZnO/Al2O3 nanolaminates can be enhanced by nanoscale engineering of the thin film structure.Peer reviewe
Reduced propagation loss in silicon strip and slot waveguides coated by atomic layer deposition
When silicon strip and slot waveguides are coated with a 50nm amorphous titanium dioxide (TiO2) film, measured losses at a wavelength of 1.55μm can be as low as (2±1)dB/cm and (7±2)dB/cm, respectively. We use atomic layer deposition (ALD), estimate the effect of ALD growth on the surface roughness, and discuss the effect on the scattering losses. Because the gap between the rails of a slot waveguide narrows by the TiO2 deposition, the effective slot width can be back-end controlled. This is useful for precise adjustment if the slot is to be filled with, e. g., a nonlinear organic material or with a sensitizer for sensors applications
Characterization of photonic crystal waveguides using Fabry-Perot resonances
A method for characterization of short photonic crystal waveguides is presented. The method utilizes mirror-enhanced Fabry–Perot resonances in the photonic crystal waveguide as well as in the insertion waveguides on either side of the photonic crystal waveguide. The method is applied to three-row defect (W3) photonic crystal waveguides fabricated into silicon-on-insulator wafers. The results are compared with those obtained with the conventional Fabry–Perot method
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