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New technique to help produce next generation photonic chips

Date:
November 17, 2014
Source:
University of Southampton
Summary:
Researchers have developed a new technique to help produce more reliable and robust next generation photonic chips. Photonic chips made from silicon will play a major role in future optical networks for worldwide data traffic. The high refractive index of silicon makes optical structures the size of a fraction of the diameter of a human hair possible. Squeezing more and more optical structures for light distribution, modulation, detection and routing into smaller chip areas allows for higher data rates at lower fabrication costs.
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Researchers from the University of Southampton have developed a new technique to help produce more reliable and robust next generation photonic chips.

Photonic chips made from silicon will play a major role in future optical networks for worldwide data traffic. The high refractive index of silicon makes optical structures the size of a fraction of the diameter of a human hair possible.

Squeezing more and more optical structures for light distribution, modulation, detection and routing into smaller chip areas allows for higher data rates at lower fabrication costs.

As the complexity of optical chips increases, testing and characterising such chips becomes more difficult. Light traveling in the chip is confined in the silicon, that is, it cannot be 'seen' or measured from the outside.

Southampton researchers have now developed a new method, which will help solve this problem, to find out at which time the light in the chip is at which position. The technique, called Ultrafast photomodulation spectroscopy (UPMS), uses ultraviolet laser pulses of femtosecond duration to change the refractive index of silicon in a tiny area on the photonic chip.

Non-contact characterization tools like UPMS are vital for scientist designing complex photonic chips. The UPMS technique is fast and robust and has the potential to be used for industrial testing in the photonics industry.

The research is published in the latest issue of the journal Nature Photonics.

Dr Roman Bruck, from Physics and Astronomy at the University of Southampton and lead author of the study, says: "Monitoring the transmission of the chip while the refractive index is locally changed gives a precise picture of how the light flows through it. This allows testing of individual optical elements on the chip, a crucial step in the design optimisation to ensure its flawless operation. Because the changes induced by the technique are fully reversible, this testing method is non-destructive and after testing, the chip can be used for its intended application."

The research team, from Physics and Astronomy and the Optoelectronics Research Centre (ORC) at the University, expects to establish the technique as a standard characterisation tool, making photonic chips under development more reliable and bringing them into the market quicker. The work has been funded by the Engineering and Physical Sciences Research Council (EPSRC).


Story Source:

Materials provided by University of Southampton. Note: Content may be edited for style and length.


Journal Reference:

  1. Roman Bruck, Ben Mills, Benedetto Troia, David J. Thomson, Frederic Y. Gardes, Youfang Hu, Goran Z. Mashanovich, Vittorio M. N. Passaro, Graham T. Reed, Otto L. Muskens. Device-level characterization of the flow of light in integrated photonic circuits using ultrafast photomodulation spectroscopy. Nature Photonics, 2014; DOI: 10.1038/nphoton.2014.274

Cite This Page:

University of Southampton. "New technique to help produce next generation photonic chips." ScienceDaily. ScienceDaily, 17 November 2014. <www.sciencedaily.com/releases/2014/11/141117125846.htm>.
University of Southampton. (2014, November 17). New technique to help produce next generation photonic chips. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2014/11/141117125846.htm
University of Southampton. "New technique to help produce next generation photonic chips." ScienceDaily. www.sciencedaily.com/releases/2014/11/141117125846.htm (accessed December 21, 2024).

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