Absorbing materials and their alpha particle penetration depths.
5.5 MeV alphas: AIR(STP) 3.7 cm
2.3 MeV Beta: air 8.8 m
Solar wind is even less energetic.
Edit: “Auroral emissions typically occur at altitudes of about 100 km (60 miles); however, they may occur anywhere between 80 and 250 km (about 50 to 155 miles) above Earth's surface.” it really doesn’t take much atmosphere to stop it.
Charged particles from the Sun (SEPs) aren't what determine the design envelope for radiation shielding. Your overall dose will almost entirely come from galactic cosmic radiation (GCR) at much higher energy levels, which is significantly harder to shield against.
Those particles are what ultimately determine your shielding thickness requirements. That's true whether you're on Venus, or Mars, or a space colony.
NASA’s direct comparisons between New Mexico (55) and Antarctica (160) only showing a relatively modest decrease from earths magnetic field when measured by high altitude balloons, but again very little GCR reaches the surface.
To be clear a very small fraction of GCR is extreme high energy particles which penetrate just fine.
https://sciencedemonstrations.fas.harvard.edu/presentations/...
Absorbing materials and their alpha particle penetration depths.
5.5 MeV alphas: AIR(STP) 3.7 cm
2.3 MeV Beta: air 8.8 m
Solar wind is even less energetic.
Edit: “Auroral emissions typically occur at altitudes of about 100 km (60 miles); however, they may occur anywhere between 80 and 250 km (about 50 to 155 miles) above Earth's surface.” it really doesn’t take much atmosphere to stop it.