If we are going down that rabbit hole, I love the plan to create an artificial Martian magnetosphere by placing a magnetic field generating satellite between mars and the solar winds. Generating an atmosphere on mars is all well and good, but it will just blow away again without some protection. The generator would only require roughly 583.9 exajoules, or roughly the world's total energy consumption in 2020.
>Generating an atmosphere on mars is all well and good, but it will just blow away again without some protection.
NASA estimates the Martian atmosphere is ~2.5e16 kgs[0]. Current estimate[1] is that the Martian atmosphere loses 2-3 kg/s. Presently losing something on the order of 1e-9 percentage per day. I think if humans ever have the ability to thicken the Martian atmosphere, we can cover the loss.
A superconducting tape girdling the planet's equator would suffice, and require after startup only the power needed to keep it chilled at all times below 70K.
21340 km of superconducting tape could take rather some time to fabricate. Then, of course you need to get it there, and lay it out, and construct 20k refrigeration plants. Then, extract enough nitrogen from the atmosphere (1.89% concentration) for refrigerant; you'll need about 4M tons of it. You also need 21340 km of cryo-safe piping bonded to the tape, which probably weighs another 4M tons. Plus heat insulation.
Leakage from 21340 km of tubing, even if just migration of single molecules through the walls of the tube, would require continuous injection of fresh nitrogen.
And, I guess, you had better protect it from meteorite strikes. A planet-sized magnetic field suddenly imploding would seem to release enough energy to vaporize your whole tape. Maybe you should have two of them, parallel, 100km apart so they are unlikely to both be taken out by the same meteorite.
https://arxiv.org/pdf/2111.06887.pdf