What? Interstellar medium is a hard vacuum, it won't focus any electromagnetic waves.
Cool idea, worth pursuing. Thanks for the math.I see one problem: You have to exit the solar system. The particle density in the solar system is 10x that of interstellar medium. What does the maths say about that?Then you encounter the heliopause, which may distort the filament. Then beyond the heliopause you get the interstellar densities.What happens when a filament transits different mediums?
As the beam propagates into regions of space with lower plasma density and temperature, it will spread out a bit and become wider. But it should remain within the self-focusing regime.
Normally something focuses to a fixed point. How does that work with an accelerating starship?
Quote from: daedalus1 on 07/24/2023 06:13 amNormally something focuses to a fixed point. How does that work with an accelerating starship?Look up how fiber optics work. Same idea, but the medium isn't specially doped plastic fiber, but the sparse plasma present in space.
Quote from: InterestedEngineer on 07/24/2023 06:11 pmQuote from: daedalus1 on 07/24/2023 06:13 amNormally something focuses to a fixed point. How does that work with an accelerating starship?Look up how fiber optics work. Same idea, but the medium isn't specially doped plastic fiber, but the sparse plasma present in space.I don't see how that's the same analogy. Fibre optic wall is a fixed cylinder, but the interstellar plasma is dispersed.
Quote from: daedalus1 on 07/24/2023 10:23 pmQuote from: InterestedEngineer on 07/24/2023 06:11 pmQuote from: daedalus1 on 07/24/2023 06:13 amNormally something focuses to a fixed point. How does that work with an accelerating starship?Look up how fiber optics work. Same idea, but the medium isn't specially doped plastic fiber, but the sparse plasma present in space.I don't see how that's the same analogy. Fibre optic wall is a fixed cylinder, but the interstellar plasma is dispersed.the heating of the plasma by the radio waves creates its own cylinder.Maybe think like lightning.
The one thing I'm wondering about: if you increase the power then the radius increases right? So as you add power you have to add mass to the system in the form of your reflector. Given the areal mass density of your proposed reflector (the superconducting wire mesh) what kind of acceleration could you get for that 150 MW?
Over a year that will give you 3000m/sec. not particularly exciting. It'll take 100 years to get to 1%C.