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On-chip natural assembly of silicon photonic bandgap crystals

Yurii A. Vlasov, Xiang-Zheng Bo, James C. Sturm and David J. Norris ()
Additional contact information
Yurii A. Vlasov: NEC Research Institute
Xiang-Zheng Bo: Princeton University
James C. Sturm: Princeton University
David J. Norris: NEC Research Institute

Nature, 2001, vol. 414, issue 6861, 289-293

Abstract: Abstract Photonic bandgap crystals can reflect light for any direction of propagation in specific wavelength ranges1,2,3. This property, which can be used to confine, manipulate and guide photons, should allow the creation of all-optical integrated circuits. To achieve this goal, conventional semiconductor nanofabrication techniques have been adapted to make photonic crystals4,5,6,7,8,9. A potentially simpler and cheaper approach for creating three-dimensional periodic structures is the natural assembly of colloidal microspheres10,11,12,13,14,15. However, this approach yields irregular, polycrystalline photonic crystals that are difficult to incorporate into a device. More importantly, it leads to many structural defects that can destroy the photonic bandgap16,17. Here we show that by assembling a thin layer of colloidal spheres on a silicon substrate, we can obtain planar, single-crystalline silicon photonic crystals that have defect densities sufficiently low that the bandgap survives. As expected from theory, we observe unity reflectance in two crystalline directions of our photonic crystals around a wavelength of 1.3 micrometres. We also show that additional fabrication steps, intentional doping and patterning, can be performed, so demonstrating the potential for specific device applications.

Date: 2001
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DOI: 10.1038/35104529

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