It has been at the bottom of the sea for more than two decades, forgotten. But now, finally, the TAT-8, the first fiber optic cable that crossed the Atlantic and connected us to the Internet, is being removed from its place. And to understand the importance of this, it is worth telling its story, since perhaps the Internet would not be as we know it without this cable.
The cable that started it all. On December 14, 1988, AT&T, British Telecom and France Telecom developed TAT-8, the acronym for Trans-Atlantic Telephone 8. It was the eighth transoceanic cable system between Europe and the United States, but the first to use optical fiber. Before him, transatlantic cables ran on copper, with very limited capacity.
With the TAT-8, voices and data traveled converted into pulses of light through glass threads thinner than a hair. Just like account Wired in its report, at the inaugural event, writer Isaac Asimov connected by video call from New York with audiences in Paris and London to celebrate, in his own words, “this inaugural voyage across the sea on a ray of light.”
Why was it so important? When it came into operation, the Internet was still too technical a concept for the general public. But the TAT-8 literally built the highway on which everything later circulated. The curious thing is that in just 18 months it already reached its maximum capacity, so this forced new cables to be laid as soon as possible, especially after the outbreak of the world Wide Webelectronic commerce and in a context in which the Internet became increasingly relevant. By 2001 the TAT series had already reached 14.
Disconnection. Just like account In the middle, in 2002, the TAT-8 suffered a breakdown, and repairing it was not worth it, it was that simple. With more modern and higher capacity cables already operational, it made no sense to invest in their recovery. It went offline and was abandoned at the bottom of the Atlantic, where it has remained for more than two decades.
Now they are taking it out of the sea. According to collect Wired, a specialist company called Subsea Environmental Services is physically recovering the cable with its vessel MV Maasvliet. It is one of the few companies in the world whose entire business consists of recovering and recycling retired submarine cables. The operation involves dragging a flat hook across the seabed, waiting hours until tension is felt in the cable, and then hoisting it aboard meter by meter. The workers they explain As the ocean floor is an increasingly crowded space, and recovering old cables frees up routes for new ones.
What is done with the remains. The TAT-8 is not thrown away. Fiber optic cables contain high purity copper, steel and polyethylene, all recyclable materials with market value. Copper, especially, is a valuable resource and may become scarce in a few years. And according to the International Energy Agency, in less than a decade could be scarce if the industry does not find new sources.
On the other hand, the steel of the cable will end up being converted into fences, and the plastic, processed in the Netherlands, will be transformed into pellets to manufacture non-food packaging. In fact, just as they count At Wired, you may soon be using shampoo in a bottle made from remains of the first fiber optic cable to cross the Atlantic.
Sharks. Curiously, the TAT-8 is at the epicenter of one of the legends that has lasted the longest in this sector: that sharks bite internet cables. Just like share In the middle, it all started with a test prior to the TAT-8, the Optican-1, which ended up failing due to problems in its insulation. A Bell Labs engineer appeared at a conference with shark teeth that had supposedly been removed from the damaged cable. The story spread instantly. As well as point At the time, AT&T even included four pages on protection against shark bites in its press kit for TAT-8.
Actually, there has never been consensus about whether the sharks really caused that damage. Subsequent tests in aquariums, where they were starved to see if they would bite into wires with electric fields, did not yield any clear patterns. At least the outcome of all that testing and debate was positive, as engineers added a layer of steel between the insulation and the fibers, which improved the cable’s overall resistance to abrasions and damage of all kinds.
Cover image | What’s Inside?
In Xataka | In 1901, a Spanish man had one of the ideas of the century: invent the remote control before television
GIPHY App Key not set. Please check settings