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The present technology reduces crosstalk at the sub-micron scale by using a superlattice of waveguides. Within each supercell, there is a sub-array of waveguides.
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Invention Summary: The success of silicon photonic devices depends on high integration density. However, at the sub-wavelength scale, waveguides suffer from high crosstalk. The present technology reduces crosstalk at the sub-micron scale by using a superlattice of waveguides. Within each supercell, there is a sub-array of waveguides with different propagation constants. Differences in propagation constants may be due to differences in width, length, or materials. A creative “interlacing-recombination” scheme may be used to achieve low crosstalk at half-wavelength pitch. With this design strategy, it is possible to design a superlattice comprising waveguides with widths of 330-450 nm. Market Application: • Photonic chips • Optical communication devices • Optical phased arrays (with half-wavelength pitch) • Space division multiplexing Advantages: • Increased integration density • Reduced crosstalk • More advanced functionality of chips • Reduced cost • Increased wavelength resolution • Tolerance to surface roughness