[perihelions]

- "Or would the ensuing static charge of the spaceship render this infeasible?"

Back-of-the-envelope math says a large spaceship will reach 100 kV potential at a charge imbalance of around 1e15 electrons (total mass: 1e-15 kg). So yeah, completely unfeasible.

(It's asking the wrong question though. Electric thrusters aren't thermal systems, and aren't limited by molecular weight as severely as thermal engines are. You can get stupidly high Isp (>200 km/s) out of heavy ions, just by raising the voltage).

https://en.wikipedia.org/wiki/Ion_thruster#Comparisons

[pfdietz]

And, in fact, you WANT heavy ions, as the thrust/area of an ion engine at a given exhaust velocity scales as the square of the ion mass/charge ratio. The thrust in an ion engine is limited by space charge (where the charge of the ions between the accelerating grids becomes similar to the charge on the grids). Using heavier ions also reduces the ionization energy/mass. There's been work on using molecules or small droplets ("colloidal thrusters") to get even higher mass/charge, but you need to totally avoid generation of fragments with low mass/charge as they will dominate the current.