this post was submitted on 11 Jul 2023
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Well, if the EU and the US would put the money together then it would be enough. 1000 tons of mirror would be less than 20% of the yearlyx US defence budget and less than 40% of the yearly EU regenerative energby budget.
Even if the US and EU pony up the not insignificant amount of cash to do it, there's still nothing that can put 1000t into orbit, let alone L1. And splitting it up into 100t segments isn't a solution, since L1 is unstable. The segments will need power, thrusters, gyros, propellant and guidance for station-keeping, so there goes a large chunk of your mass budget. To compensate for that, you need more mirrors. And they need to be continuously replaced as they break down or run out of propellant.
actually solar wind and electric charging of the rotating foil should do the trick. The gravitational effects around L1 are miniscule. If you are e.g. 1km away from L1 then it is less than 0,001% of earths gravity. The touch of a butterfly could literaly move the mirror.
And the gravitational pull of all the other planets. I'm sure Jupiter is totally cool with us trying to precisely align and balance a satellite swarm on the point of a needle.