Component Management

Silicon-rich alloy improves optical computer chips

2nd June 2016
Enaie Azambuja
0

To improve the efficiency of waveguides, a complex balance must be struck. The need for enhanced optical signal processing properties competes with the demand for low optical losses in waveguide material. Now, A*STAR researchers have developed an alloy that fits the bill, while achieving compatibility with existing silicon computer chip fabrication technology.

"Our waveguides will be an excellent platform for future demonstrations of nonlinear integrated optical signal processing with lower powers, large scale manufacturability, and potential new functionalities," says Doris Ng from the A*STAR Data Storage Institute research team who conducted the study with researchers from the Singapore University of Technology and Design.

For optical waveguides, a material must show low optical loss. To ensure good performance, it also needs to exhibit nonlinear optical properties a requirement for optical signal processing. Lastly, but vitally, it must be manufactured at relatively low temperatures to be compatible with silicon chip fabrication processes.

Alloys made of silicon and nitrogen seem to be the right materials for the job. Their high optical refractive index allows them to confine light on the surface of a chip. Furthermore, they can be fabricated on a silicon chip using an established vapor deposition process at low temperatures.

However, the chemically favored material composition for silicon nitride materials does not achieve a good balance between nonlinear properties and the refractive index.

The team explored other silicon–nitride ratios to achieve a better balance of properties and discovered that alloys with a higher silicon composition show much more favorable properties. In one case, it achieved an optical nonlinearity almost 500 times stronger than the typical composition.

To test the overall optical properties, the researchers studied supercontinuum light generation, a process where a laser beam of one color is converted into a beam having a broad range of colors.

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