JDSU, a leading enabler of broadband and optical innovation, today announced it has successfully demonstrated a photonic integrated circuit (PIC) that combines a tunable laser and optical modulator, using a technology known as the Integrated Laser Mach Zehnder (ILMZ). The new PIC will allow JDSU to develop smaller, higher performance and more cost-effective tunable solutions that support faster network speeds.
American Fiber Systems (AFS), a leading provider of private optical networks, announced today the successful completion of its fiber optic metro network expansion in the Salt Lake City area.
BTI Photonic Systems Inc., a global supplier of microWDM networking solutions for the delivery of gigabit services, today announced that FiberTower Corporation has selected its optical networking platform, Netstender, to expand its wireless backhaul network capacity for next generation wireless services. FiberTower, a leading alternative provider of wireless backhaul for wireless carriers, selected BTI’s platform to provide the capacity to deliver high capacity backhaul over the FiberTower hybrid microwave/fiber network.
Timbercon, Inc., the fiber optic product and solution manufacturing company providing a vast array of connectivity solutions, introduces their Optical Time Domain Reflectometer (OTDR) Delay Module, designed to eliminate the dead spot associated with OTDR testing for optical network analysis.
Xponent Photonics, the leading innovator of FTTx optical components, announced today that it will unveil its Xtreme Optics™ platform, the ultimate in minimal optical component packaging, at OFC/NFOEC 2006 in Anaheim, CA.
Researchers will announce some of the latest breakthroughs and innovations in optics-based communications at OFC/NFOEC 2006--the largest and most comprehensive international event for optical communications.
The transistor laser invented by scientists at the University of Illinois at Urbana-Champaign has now been found to possess fundamental non-linear characteristics that are new to a transistor and permit its use as a dual-input, dual-output, high-frequency signal processor.
Researchers at the University of Illinois at Urbana-Champaign have demonstrated the room-temperature operation of a heterojunction bipolar transistor laser, moving it an important step closer to commercialization.
Building on a series of recent breakthroughs in silicon photonics, researchers at the UCLA Henry Samueli School of Engineering and Applied Science have developed a novel approach to silicon devices that combines light amplification with a photovoltaic – or solar panel – effect.
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