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cronin101 | 2 years ago

Starlink is only an extra ~10% of the Earth radius at orbit height, but optic cables slow light by ~30%. So it's actually counterintuitive but "could" be just as fast. (Depending on how far you need to send data, it will regress for intra nation but will theoretically improve long distance communication).

discuss

jagrsw|2 years ago

What's the theoretical max bandwidth in LEO's near-vacuum? Could we use a wide 1GHz-1THz channel for directional beams to hit 1Tbps, given a decent SNR?

Cosmic dust and H atoms seem like non-issues for 1000km links? Would power or thermal reqs be an issue here?

I understand it's only about satellite-to-satellite, but still it's interesting.

sidewndr46|2 years ago

You're missing the fact that Starlink doesn't take your traffic to the destination. It takes to a nearby downlink station. Then it goes on those same optic cables to the destination.

dotnet00|2 years ago

It can take your data to the destination via inter-satellite laser links. That's how they offer service over water and near/at the poles, where downlink stations are not in line of sight for the satellites.

gbil|2 years ago

Seems that they operate in various altitudes but taking your approximation of 10% of the earth radius, that is 10% + 10% as the signal needs to travel to and from the satellite to the ground, that increases the total distance travelled