(PDF) Design and characterization of arrayed
Planar waveguides with ultra-low propagation loss are necessary for integrating optoelectronic systems that require long optical time delay or narrowband optical
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Planar waveguides with ultra-low propagation loss are necessary for integrating optoelectronic systems that require long optical time delay or narrowband optical
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Abstract: We report on low loss, low crosstalk, and compact arrayed waveguide gratings (AWGs) based on a 200-nm-thick-Si3N4-core platform. High resolution fabrication processes realized four types of
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discuss the performance of arrayed waveguide gratings (AWGs) fabri-cated with the platform. We propose the use of a pr ctical design method that takes the statistical nature of worst-case crosstalk
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1. Introduction The arrayed waveguide grating (AWG) is a planar versatile light dispersion component with high accuracy, robustness, and design flexibility1. It has become an attractive component not
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A high-performance 32-channel silicon arrayed waveguide grating (AWG) with 100 GHz spacing is designed and fabricated using 180-nm
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A fiber or waveguide Bragg grating is a one-dimensional optical device produced by periodic variation of the refractive index in the fiber core or the waveguide, which is able to reflect a
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Compact Arrayed Waveguide Gratings Fabricated on 800-nm-Thick SiN Photonic Integration Platform Abstract: Silicon nitride (Si 3 N 4) waveguide with thickness of >600 nm having
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We successfully fabricated the proposed AWG devices which have the characteristics of small size, low insertion loss, and stable performance, and the discrepancies in the fabrication and
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ArF deep UV (193 nm) lithography was successfully applied to fabricate Arrayed Waveguide Gratings in generic Indium Phosphide technology. The sub-dB transmission losses demonstrate the advantages
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Abstract Ultracompact silicon-based arrayed waveguide gratings (AWGs) with low loss and low crosstalk are essential for on-chip optical interconnect and miniaturized spectroscopic
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We design and fabricate an eight-channel thin-film lithium niobate (TFLN) arrayed-waveguide grating (AWG) and demonstrate the electro-optical
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We report on low-loss, low-crosstalk, and compact arrayed waveguide gratings (AWGs) based on a 200-nm-thick-Si 3 N 4 -core platform. High-resolution fabrication processes realized four types of Si 3 N 4
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Abstract and Figures Array waveguide gratings (AWGs) have been widely used in multi-purpose and multi-functional integrated photonic devices for Microwave photonics (MWP) systems.
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Such a low loss waveguide can be used further to design high-performance passive waveguide devices like high-quality ring resonators. All these low loss structures can be used in
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Abstract: We report on low loss, low crosstalk, and compact arrayed waveguide gratings (AWGs) based on a 200-nm-thick-Si3N4-core platform. High resolution fabrication processes realized four types
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Leveraging the inherent advantages of optical waveguides, such as high-speed data transmission, low loss, and large bandwidth, optical interconnects have emerged as a pivotal force in
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An optimized process was developed for Si3N4/SiO2waveguide manufacturing so as to produce very low loss waveguide devices in a fully operational CMOS fabrication line.
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In this work, we demonstrated a low-loss AWG with 100 output channels and a channel spacing of 50 pm based on a z-cut thin-film lithium niobate platform. The length increment of adjacent arrayed
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This leads to the first implementation of arrayed waveguide gratings on X-cut thin-film lithium niobate with various configurations and high-performances.
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The proposed work reviews the evolution of Arrayed Waveguide Gratings (AWG) from concentric phased arrays to present day design. The article
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The gratings are fabricated using modulated bursts and are embedded inside single-mode depressed cladding waveguides. Through design optimization, and fabrication parameter tuning, a depressed
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Another highly effective method to reduce the insertion loss of an AWG, which is based on the same idea of tapering, has been patented by Lucent: A segmented transition region is inserted between
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Citations (24) References (4) Abstract Si wire arrayed-waveguide grating is reported using local rib waveguide generating multimode interference at the array and slab waveguide interface.
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aveguide is employed from the Rowland circle to the array waveguide to reduce coupling losses. To achieve electro-optic tunable AWG, a 1-cm-long electrodes array were designed along the straight
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In this review, an overview of the available methods for improving the bandwidth, spectral resolution, and transmission function shape of AWGs is provided. The working principle as well as the advantages
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Abstract Planar waveguides with ultra-low propagation loss are necessary for integrating optoelectronic systems that require long optical time delay or narrowband optical filters. In this paper, we review an
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