this post was submitted on 04 Sep 2025
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[–] vk6flab@lemmy.radio 1 points 10 months ago (2 children)

How does lower loss improve latency?

[–] skibidi@lemmy.world 6 points 10 months ago (1 children)

Lower loss in general means fewer repeaters, and repeaters always add latency.

For this cable specifically, the optical signal spends significant time traveling through air, which has a lower index of refraction (higher signal speed) than the solid-glass cables in common use.

The article abstract claims a 45% improvement in signal speed, which would reduce latency over longer distances simply because the information arrives sooner.

[–] vk6flab@lemmy.radio 2 points 10 months ago
[–] englislanguage@lemmy.sdf.org 3 points 10 months ago

As far as I understand, the latency is improved by the different speed of light of the DNANF: In conventional fibres, it is limited by the refractive index of glass, reducing the speed of light in it to ~70% of speed of light in vaccum (Wikipedia on this topic). In this new concept, the light travels 45% faster.

I think, the lower loss (lower attenuation) is "just" an enabler for long distances: You can easily have hundreds of km without repeaters – and repeaters for DNANF cables would add latency. If they can get attenuation improved a bit more, they may even be able to cross the Atlantic ocean without repeaters.

As a nice side effect, those DNANF cables have very little dispersion, so you can get rid of compensating for that, which will reduce latency too.