NTT and NEC Eye a Huge Increase in Subsea Cable Capacity

The companies successfully tested a coupled 12-core multi-core fiber over a distance of 7,280km in an experiment that simulated the conditions of submarine cables on the ocean floor.

Gigi Onag, Senior Editor, APAC, Light Reading

March 26, 2024

2 Min Read
Subsea cable
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This article originally appeared in Light Reading

Japan's NTT and NEC have announced that they have conducted a transmission experiment using a new fiber optic technology that they say could substantially increase the capacity of submarine cables.

The companies said Thursday that they have successfully tested a coupled 12-core multi-core fiber over 7,280km in an experiment that simulated the conditions of submarine cables on the ocean floor.

NTT and NEC pointed out that existing optical submarine cables use single-core fiber, which has a single optical transmission path called a core within a single fiber. They added that researchers worldwide have been working on multi-core fibers that add more paths without increasing the size of a standard 0.125mm diameter optical fiber. NTT and NEC are working on fibers that pack 12 cores in that tiny space.

"This achievement is expected to be a next-generation transmission infrastructure technology that will contribute to the realization of large-capacity optical networks, including future optical submarine cables," the partners said in a statement.

Addressing the interference issue

With more cores packed into an optical fiber, crosstalk occurs between cores and degrades communications.

"Especially in long-distance transmission, it becomes difficult to receive transmitted signals accurately due to non-uniformity of delay and loss between optical signals," the companies said.

Related:Undersea Cable Damage Causes Internet Outages Across Africa

To fix this issue, NEC and NTT developed an algorithm to bring Multiple Input Multiple Output (MIMO) technology to optical networks. MIMO technology is widely used in wireless communications to separate multiple interfering radio signals.

Moreover, the companies have developed design technologies for coupled multi-core fiber and optical input/output devices (connecting fan-in/fan-out) that can reduce the effects of non-uniformity among signal delay and loss.

The two companies are aiming to have their new fiber optic technology ready for commercial deployment by the 2030s, just in time for the launch of 6G.

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About the Author

Gigi Onag

Senior Editor, APAC, Light Reading

Gigi Onag is Senior Editor, APAC, Light Reading. She has been a technology journalist for more than 15 years, covering various aspects of enterprise IT across Asia-Pacific.

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