Gentex Wins 2000 PACE AwardBell Labs Scientists Demonstrate First Long-Distance Triple-Terabit Transmission
Murray Hill, NJ. Scientists at Bell Labs, the research and development arm of Lucent Technologies (NYSE: LU), have demonstrated the world s first long-distance triple-terabit data transmission. They sent a record 3.28 terabits (trillion bits) of information per second over 300 kilometers of an experimental Lucent TrueWave(R) optical fiber. Using three 100-kilometer fiber spans, the researchers transmitted 40 gigabits (billion bits) over each of 40 wavelengths, or colors, of light in the conventional C-band frequency range and 40 gigabits (Gb/s) over each of 42 channels in the long-wavelength L-band range.
They used both dense wavelength division multiplexing (DWDM), a technology that combines multiple wavelengths onto a single fiber, and distributed Raman amplification, a technique that allows optical fiber to amplify the signals traveling through it.
"This is a milestone on the road to super-high-capacity long-reach transmission," said Alastair Glass, executive director of the Bell Labs Photonics Research Lab. "It proves the practicality of 40Gb/s systems with repeater spacing typical of today s networks."
The research team presented its results in one of a dozen Bell Labs technical talks given in post-deadline, late-breaking-news sessions at the Optical Fiber Communications (OFC) Conference last week. "The 3.28-terabit transmission experiment, along with other Bell Labs post-deadline reports - on all-optical cross connects - demonstrate that Lucent Technologies is uniquely positioned to provide the next-generation optical-layer network," said Harry Bosco, group president of Lucent s Optical Networking Group.
Bell Labs is celebrating its 75th anniversary this year. One of the most innovative R&D entities in the world, Bell Labs has generated some 40,000 inventions since 1925. It has played a pivotal role in inventing and perfecting key communications technologies for most of the twentieth century, including transistors, digital networking and signal processing, lasers and fiber-optic communications systems, communications satellites, cellular telephony, electronic switching of calls, touch-tone dialing, and modems.
Today, Bell Labs continues to be a haven for some of the best scientific minds. With more than 30,000 employees located in 25 countries, it is the largest R&D organization in the world dedicated to communications and the world s leading source of new communications technologies. For more information on Bell Labs, visit http://www.bell-labs.com.
Lucent Technologies, headquartered in Murray Hill, N. J., designs, builds, and delivers a wide range of public and private networks, communications systems and software, data networking systems, business telephone systems, and microelectronics components. Bell Labs is the research and development arm for the company. For more information on Lucent Technologies, visit its Web site at http://www.lucent.com.
Bell Labs Post-Deadline Papers
Optical Fiber Communications (OFC) Conference 2000
3.28-Tb/s (82x40Gb/s) transmission over 3x100km nonzero-dispersion fiber using dual C- and L-band hybrid Raman/Erbium-doped inline amplifiers, T.N. Nielsen, A.J. Stentz, K. Rottwitt, D.S. Vengsarkar, L.Hsu, P.B. Hansen, J.H. Park, K.S. Feder, T.A. Strasser, S. Cabot, S. Stulz, C.K. Kan, A.F. Judy, J. Sulhoff, S.Y. Park, L.E. Nelson, L. Gruner-Nielsen. Transmission of a record aggregate capacity of 3.28-Tb/s (82x40Gb/s PRBS 231-1 NRZ) over 3x100km of a demonstration TrueWave(R) fiber with very low dispersion slope. The system for the first time incorporates dual C- and L-band transmission and distributed Raman amplification in addition to the 40Gb/s line rate.
Ultra-dense terabit capacity WDM transmission in L-band, A.K. Srivastava, S. Radic, C. Wolf, J.C. Centanni, J.W. Sulhoff, K. Kantor, Y. Sun. Error-free transmission of 100 wavelength-division-multiplexed (WDM) 10-Gb/s channels with 25 GHz spacing over 400 km of non-zero dispersion shifted fiber. High spectral efficiency of 0.4b/s/Hz was achieved combining distributed Raman and erbium doped fiber amplifiers.
1.6 Tb/s (40X40 Gb/s) total capacity 4-node optical networking with fully programmable A/D devices, Hyang K. Kim, S. Chandrasekhar, Torben Nielsen, Chris Doerr, Larry Stulz, Larry Buhl, Rene Monnard, Stojan Radic, Martin Zirngibl. A 4-node dynamically reconfigurable optical network, using integrated add/drop devices, is demonstrated. Aggregate capacity of 1.6 Tb/s (40 X 40 Gb/s), spectral efficiency of 0.4 bits/s/Hz, Q values larger than 18 dB and wide tolerance to wavelength mis-alignment are key results.
Fully provisioned 112x112 micro-mechanical optical cross connect with 35.8Tb/s demonstrated capacity, D.T. Neilson, V.A. Aksyuk, S. Arney, N.R. Basavanhally, K.S. Bhalla, D.J. Bishop, B.A. Boie, C.A. Bolle, J.V. Gates, A.M. Gottlieb, J.P. Hickey, N.A. Jackman, P.R. Kolodner, S.K. Korotky, B. Mikkelsen, F. Pardo, G. Raybon, R. Ruel, R.E. Scotti, T.W. Van Blarcum, C.R. Giles, L. Zhang. Presentation of a scalable, fully provisioned 112x112 micro-mechanical optical cross connect with mean insertion loss of 7.5dB @ 1550nm into single-mode optical fiber and
Secure Your Hydrogen Supply
A study supply of high-purity hydrogen is critical to semiconductor fabrication. Supply chain interruptions are challenging manufacturers, leading to production slowdowns and stoppages. On-site hydrogen generation offers a scalable alternative for new and existing fabs, freeing the operator from dependence on delivered gas.Plant managers understand the critical role that hydrogen plays in semiconductor fabrication. That important job includes crystal growth, carrier gas, wafer annealing, and in the emerging Extreme UV Lithography (EUV) that will enable new generations of devices. As the vast need for semiconductors grows across all sectors of world economies, so does the need for high-purity hydrogen.
Take control with Nel on-site hydrogen generation.
Read more