Subsea Cables & Internet Infrastructure

The new sport in Japan is breaking long haul fibre optic transmission records. NEC and the Japanese government agency, the National Institute of Communication Technology (NICT), announce new throughput records every 6 to 8 months. It is a major area of research. At the SubOptic 2025 conference NEC representatives did many presentations on their multicore research. NICT has taken a slightly different approach of combining multiple spectrum bands (C+L) with multicore fibre. This is more challenging because there are few C+L amplifier products on the market. In fact, only Subcom has manufactured and deployed such a system on the PLCN cable. Japan by the way has been a hub of innovation in optical networking and other high tech areas like space exploration. However, long term economic prospects are poor due to population decline and the low status of women which means their talents are underutilized.  What is special about this record breaking effort is the use of a 19 core fibre stran...

Long haul fibre optic bandwidth ranges from a few terabits per second into the low thirties with the equipment and operating expense sharply rising as transmission rates go up. Repeatered subsea cables generally lie in the 12 to 25 Tbps window with most spatial division multiplexing deployments pushing 12 to 20 Tbps whereas the traditional 6 to 8 pair coherent optics deployments transmit at least 20 Tbps or higher per strand.  The key factor determining the optical transmission rate is attenuation, which refers to the fact that a photon or wavelength's intensity or energy diminishes as it travels through fibre optic glass or any other medium. Light is scattered, reflected backwards or absorbed. Other variables that affect transmission rates include the number of distinct wavelength bands (dense wave division multiplexing) that can serve as distinct optical channels in a given spectrum range (usually the C band). The more channels, the higher the transmission rate. Chromatic dispers...