High-efficiency, large-bandwidth silicon-on-insulator grating coupler based on a fully-etched photonic crystal structure
- 1 February 2010
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 96 (5), 051126
- https://doi.org/10.1063/1.3304791
Abstract
A grating coupler for interfacing between single-mode fibers and photonic circuits on silicon-on-insulator is demonstrated. It consists of columns of fully etched photonic crystal holes, which are made in the same lithography and etching processes used for making the silicon-on-insulator wire waveguide. The holes have a diameter of around 143 nm, and are defined with electron-beam lithography. A peak coupling efficiency of 42% at 1550 nm and 1 dB bandwidth of 37 nm, as well as a low back reflection, are achieved. The performance of the proposed fully etched grating coupler is comparable to that based on the conventional shallowly etched grating, which needs additional fabrication steps.This publication has 11 references indexed in Scilit:
- Silicon-on-insulator guided mode resonant grating for evanescent field molecular sensingOptics Express, 2009
- Nanoholes Grating Couplers for Coupling Between Silicon-on-Insulator Waveguides and Optical FibersIEEE Photonics Journal, 2009
- A Compact SOI-Integrated Multiwavelength Laser Source Based on Cascaded InP MicrodisksIEEE Photonics Technology Letters, 2008
- High efficiency diffractive grating couplers for interfacing a single mode optical fiber with a nanophotonic silicon-on-insulator waveguide circuitApplied Physics Letters, 2008
- Compact and Highly Efficient Grating Couplers Between Optical Fiber and Nanophotonic WaveguidesJournal of Lightwave Technology, 2007
- Light injection in SOI microwaveguides using high-efficiency grating couplersJournal of Lightwave Technology, 2006
- Grating Couplers for Coupling between Optical Fibers and Nanophotonic WaveguidesJapanese Journal of Applied Physics, 2006
- Microphotonics devices based on silicon microfabrication technologyIEEE Journal of Selected Topics in Quantum Electronics, 2005
- Nanophotonic waveguides in silicon-on-insulator fabricated with CMOS technologyJournal of Lightwave Technology, 2005
- Low loss mode size converter from 0.3 [micro sign]m square Si wire waveguides to singlemode fibresElectronics Letters, 2002