Compact, low insertion loss, high yield arrayed waveguide grating

The present invention relates to planar lightwave circuits. More particularly, the present invention relates to improved arrayed waveguide grating (AWG) devices for wavelength-specific filtering and processing in optical communication systems. A planar lightwave circuit includes an arrayed waveguide...

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Hauptverfasser: Bhardwaj, Jyoti Kiron, Brainard, Robert James, Chapman, David J, Crafts, Douglas E, Dong, Zi-Wen, Dougherty, David, Egan, Erik W, Farrell, James F, Farrelly, Mark B, Gopinathan, Niranjan, Ishida, Kenzo, Nakamoto, David K, Nguyen, Thomas Thuan, Ramalingam, Suresh, Swain, Steven M, Thekdi, Sanjay M, Vaidyanathan, Anantharaman, Yamada, Hiroaki, Yan, Yingchao
Format: Patent
Sprache:eng
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Beschreibung
Zusammenfassung:The present invention relates to planar lightwave circuits. More particularly, the present invention relates to improved arrayed waveguide grating (AWG) devices for wavelength-specific filtering and processing in optical communication systems. A planar lightwave circuit includes an arrayed waveguide grating (AWG), with input and output waveguides, partially curved array waveguides with respective length differences, and planar waveguide regions for focusing optical energy between the input/output and array waveguides. Optimal waveguide widths and spacing along the planar waveguide region facets are disclosed, which are largely determinative of AWG size and optical performance. Also disclosed are optimal cross-sectional waveguide dimensions (e.g., width and height); modified index of refraction difference between the waveguide core and cladding regions; and optimal array waveguide lengths, path length differences, and free spectral range. These features, especially when combined with advanced fiber attachment, passivation and packaging techniques, result in high-yield, high-performance AWGs (both gaussian and flattop versions).