'Tuning In' to a Fast and Optimized Internet
November 17, 2015 | OSAEstimated reading time: 4 minutes
The amount of data that flows over the internet has exploded in the last decade. Whether people are watching cat videos, streaming movies, or uploading vacation photos to social media sites, they are demanding ever higher performance from the optical networks that are the physical foundation of the World Wide Web.
Yet the path toward an even faster internet has been hindered by energy consumption and cost per optical component, said Wei Shi, Assistant Professor, Université Laval in Québec, Canada. Shi and his colleagues have designed a tunable filter – an important component of high-capacity optical networks – that should save both money and energy because it can be readily integrated onto a photonic chip.
The device’s performance is comparable to the best bench-top systems, but at a fraction of the size and cost. The filter’s tuning span, which is a measure of how well the device can adjust to fluctuating data demands, is the widest ever demonstrated on a silicon chip. Additionally, the device has an unlimited free-spectral range, meaning it can operate over any range of frequencies, and shows excellent performance metrics in other standard measures of filter quality, including very low insertion loss and in-band ripples, low crosstalk and small delay variation.
“The most exciting aspect is that these record-breaking results were achieved on the silicon photonic platform,” Shi said. “This indicates that the filter can be readily integrated with other well developed components for a novel integrated system. It’s like finding the missing piece in a puzzle.”
Enabling Flexible Networks
The optical spectrum is a limited resource – as internet traffic has increased dramatically, bandwidth has become more precious. To maximize the power and cost efficiency of communication, optical networks must be able to flexibly allocate bandwidth, giving each customer only what they need at any given time.
“Compared to traditional networks where optical resource allocations are predetermined and fixed, flexible networks enable orders-of-magnitude higher data volumes per optical carrier and throughout the entire spectrum,” Shi said.
Flexible networks require tunable filters. Filters isolate a specific communication channel from all the others and tunable filters give a network controller the freedom to select the frequency and bandwidth for each channel and change them on the fly.
The tunable filter that Shi and his colleagues designed and tested has a tuning span of 670 GHz, much greater than the approximately 100 GHz span other silicon-based filters have achieved. The researchers believe that with further modification their device’s tuning span can be even further extended, to 1 THz.
The device works by using periodic nanostructures, 10,000 times smaller than the width of a human hair, to separate the different frequencies of light from each other. The filter tuning is achieved with micro-heaters in the silicon chip that control the local temperature, which in turns affects the nanostructures and the frequencies they separate.
The wide tuning span means the filter can handle a very large data volume carried by a single carrier, and can be rapidly adapted to dynamic changes in customer needs. The device also has a compact footprint and is built on a CMOS-compatible nanophotonic integrated platform. CMOS is the technology used by the computer industry to make integrated circuits, and because the techniques are so well optimized, CMOS-compatible chips are potentially very low cost.
Going forward, the researchers plan to integrate the tunable filter with other components on the same chip to test chip-scale flexible optical networking.
“Higher capacity optical networks affect consumers in a big way,” Shi said. The next-generation of internet technology could mean videos that stream in 3D or 360 degrees and vast amounts of cheap cloud data storage. “Think about the improvements to internet services in the past 10 years,” Shi added. “We can now easily call each other with video, send large files almost instantly and generate the news feed of your 1000 friends and subscriptions in milliseconds. This is only the beginning.”
About Optics Letters
Optics Letters is published twice a month and provides rapid dissemination of new results in all areas of optics and photonics with short, original, peer-reviewed communications. The articles often describe research-in-progress, thus reflecting the leading edge in optics and photonics. In 2013, Optics Letters increased its page limit from three to four pages to give authors the space they requested to expand on their experimental and theoretical approaches, draw links to other related work, and include a more extensive reference list to put their work into better context. With an Impact Factor of 3.385, Optics Letters is among the top-ranked journals in Thomson Reuters’ Journal Citation Reports Optics category.
About The Optical Society
Founded in 1916, The Optical Society (OSA) is the leading professional organization for scientists, engineers, students and entrepreneurs who fuel discoveries, shape real-life applications and accelerate achievements in the science of light. Through world-renowned publications, meetings and membership initiatives, OSA provides quality research, inspired interactions and dedicated resources for its extensive global network of optics and photonics experts. OSA is a founding partner of the National Photonics Initiative and the 2015 International Year of Light.
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