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OFC/NFOEC: 25.6 Tb/s Transferred

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ANAHEIM, Calif., March 28, 2007 -- A record 25.6 terabits per second (Tb/s) of optical data was reportedly transferred over a single fiber strand, using 160 wavelength division multiplexed (WDM) channels -- enough bandwidth to transmit the data from more than 600 DVDs per second.

These results far surpass the previous transmission record of 14 Tb/s, established in September 2006 (A terabit is a trillion bits of data). Alcatel-Lucent announced the accomplishment today in a post-deadline paper accepted at OFC/NFOEC, being held this week in Anaheim. It said it employed the skills of its researchers in the US and France to "optimize spectral efficiency in optical networks, using both wavelength and polarization multiplexing, and to master the physical layer of optical networking." Also involved in this experiment were scientists from the National Institute of Information and Communications Technologies in Tokyo (NTIICT) and Sumitomo Osaka Cement in Chiba, Japan.

The experimental system transmitted 25.6 Tb/s of data through three 80-km spans. The data used wavelength division multiplexing in both the C (conventional) and L (long) wavelength bands. To double the total capacity, polarization multiplexing in each wavelength was also employed. Distributed Raman amplification was used to increase the received optical signal-to-noise ratio and to allow the use of a single dispersion-compensating fiber for both bands after each spa, Alcatel-Lucent said in a statement.

"Maximizing spectral efficiency, which is the amount of information that can be transmitted within a unit bandwidth, was also critical to realizing this world record," the company said. "In this experiment, Alcatel-Lucent's Bell Labs researchers in New Jersey and Alcatel-Lucent's Research and Innovation researchers in France used an advanced signaling format called RZ-DQPSK (return to zero differential quadrature phase-shift keyed) to realize a record-breaking 3.2 bits/second/Hertz (b/s/Hz) of spectral efficiency. This is a significant improvement over today's commercial systems that generally operate at spectral efficiencies of between 0.2 and 0.4 b/s/Hz."

Romano Valussi, president of Alcatel-Lucent's Optics activities, said, "Optical networking is a critical enabler of the broadband IP revolution we are seeing throughout the world today. The experience we are developing in these tests will help Alcatel-Lucent design the most efficient, highest bandwidth systems possible to benefit our customers when networks of this bandwidth will be deployed."

The company said this advance in data transmission capacity adds to its terrestrial and submarine optical networking research milestones, including the first terabit transmission experiment, invention of non-zero dispersion fiber (NZDF), the first to break the 10 Tbit/s barrier for delivering data over a single optical fiber, the largest capacity transported over transoceanic distances (6Tbit/s), transmission of 100 Gbit/s data over 2,000 km, introduction of the L-Band amplifier, the first large-effective area fiber and the first commercial all-Raman amplified DWDM system.

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Mar 2007
The technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. The science includes light emission, transmission, deflection, amplification and detection by optical components and instruments, lasers and other light sources, fiber optics, electro-optical instrumentation, related hardware and electronics, and sophisticated systems. The range of applications of photonics extends from energy generation to detection to communications and...
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