Dirk Taillaert scite author profile

Nanophotonic waveguides and components are promising for use in the large-scale integration of photonic circuits. Coupling light between nanophotonic waveguides and a single-mode fiber is an important problem and many different solutions have been proposed and demonstrated in recent years. In this paper, we discuss a grating coupler approach. Grating couplers can be placed anywhere on a circuit and can easily be integrated. We have experimentally demonstrated >30% coupling efficiency with a 1 dB bandwidth of 40 nm on standard wafers. Theoretically, the coupling efficiency can be improved to >90% using an optimized grating design and layer stack. The fabrication of the couplers in silicon-on-insulator and in indium phosphide membranes is also discussed.

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Compact efficient broadband grating coupler for silicon-on-insulator waveguides

Taillaert

2004

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We have designed a high-efficiency broadband grating coupler for coupling between silicon-on-insulator (SOI) waveguides and optical fibers. The grating is only 13 microm long and 12 microm wide, and the size of the grooves is optimized numerically. For TE polarization the coupling loss to single-mode fiber is below 1 dB over a 35-nm wavelength range when using SOI with a two-pair bottom reflector. The tolerances to fabrication errors are also calculated.

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An out-of-plane grating coupler for efficient butt-coupling between compact planar waveguides and single-mode fibers

Taillaert

Bogaerts

Bienstman

et al. 2002

IEEE J. Quantum Electron.

552

291

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Abstract-We have designed and fabricated an out-of-plane coupler for butt-coupling from fiber to compact planar waveguides. The coupler is based on a short second-order grating or photonic crystal, etched in a waveguide with a low-index oxide cladding. The coupler is optimized using mode expansion-based simulations. Simulations using a 2-D model show that up to 74% coupling efficiency between single-mode fiber and a 240-nm-thick GaAs-AlO waveguide is possible. We have measured 19% coupling efficiency on test structures.Index Terms-Integrated optics, optical planar waveguide components, waveguide coupler.

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Low-Loss SOI Photonic Wires and Ring Resonators Fabricated With Deep UV Lithography

Dumon

Bogaerts

Wiaux

et al. 2004

IEEE Photon. Technol. Lett.

410

207

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Abstract-We demonstrate single-mode photonic wires in Silicon-on-insulator with propagation loss as low as 2.4 dB/cm, fabricated with deep ultraviolet lithography and dry etching. We have also made compact racetrack and ring resonators functioning as add-drop filters, attaining values larger than 3000 and low add-drop crosstalk.Index Terms-High index contrast, photonic wire, ring resonators, Silicon-on-insulator (SOI) technology.

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A compact two-dimensional grating coupler used as a polarization splitter

Taillaert

Chong

Borel

et al. 2003

IEEE Photon. Technol. Lett.

346

200

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We demonstrate a novel polarization splitter based on a two-dimensional grating etched in a silicon-on-insulator waveguide. The device couples orthogonal modes from a single-mode optical fiber into identical modes of two planar ridge waveguides. The extinction ratio is better than 18 dB in the wavelength range of 1530-1560 nm and the coupling efficiency is approximately 20%. The device is very compact and couples light only to transverse-electric modes of the planar waveguides. Therefore, it may be used in a polarization diversity configuration to implement a polarization insensitive photonic integrated circuit based on photonic crystal waveguides.

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Dirk Taillaert

Grating Couplers for Coupling between Optical Fibers and Nanophotonic Waveguides

Compact efficient broadband grating coupler for silicon-on-insulator waveguides

An out-of-plane grating coupler for efficient butt-coupling between compact planar waveguides and single-mode fibers

Low-Loss SOI Photonic Wires and Ring Resonators Fabricated With Deep UV Lithography

A compact two-dimensional grating coupler used as a polarization splitter

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