Customized multicore optical fibers for reduced-size data cables

Fibercore says its multicore fibers can be customized to provide the optimum design for any particular application.

Optoscribe, Sumitomo collaborate on multicore fiber for datacom, telecom
Optoscribe, Sumitomo collaborate on multicore fiber for datacom, telecom

Fibercore Ltd., a UK-based firm that designs and manufactures specialty optical fiber, says it has developed the ability to fabricate multicore optical fibers. The company's standard, demonstration product has four cores. However, Fibercore says its fabrication method is versatile enough to enable the production of multicore fibers in virtually any practical configuration, spacing, and number of cores.

As their name implies, multicore fibers promise to significantly increase the bandwidth capacity of fiber by providing more light-carrying cores than the single core typical of conventional fiber (see photo below provided by Fibercore). The technology is being explored for such applications as next-generation telecommunication devices and fiber-optic sensor systems.

See also: Automated process simplifies alignment, splicing of multicore optical fibers

Optoscribe, Sumitomo collaborate on multicore fiber for datacom, telecomOptoscribe, Sumitomo collaborate on multicore fiber for datacom, telecom

In the telecom sector, for example, multicore fibers can be used to dramatically reduce the amount of space required for and increase the bandwidth of the fiber-optic cable used in data center networks and exchanges. Data cables could be reduced in size by having, for instance, eight cores within one fiber. This would change the existing technology from an eight fiber ribbon to a single fiber cable, reducing the cross-sectional area and weight of the cable. Alternatively, the eight fibers could be replaced by eight multicore fibers, increasing the cable bandwidth eight times.

Related product:Multi-core optical connector cleaner

Fibercore says its multicore fibers can be customized to provide the optimum design for any particular application. For applications in the biomedical sector, fiber Bragg gratings may be inscribed into each photosensitive cores, providing the ability to use the fiber as a 3D shape sensor. Special drilling technology makes it possible to place virtually any core in any position within the fiber, the company adds.

“Our multicore fiber technology provides us with extreme flexibility to design what the customer needs and does not limit them to stack-and-draw design constraints,” comments Dr. Andy Gillooly, technical business development executive at Fibercore.

Source:Lightwave

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