this post was submitted on 23 Mar 2024
-26 points (38.8% liked)
Space
8746 readers
9 users here now
Share & discuss informative content on: Astrophysics, Cosmology, Space Exploration, Planetary Science and Astrobiology.
Rules
- Be respectful and inclusive.
- No harassment, hate speech, or trolling.
- Engage in constructive discussions.
- Share relevant content.
- Follow guidelines and moderators' instructions.
- Use appropriate language and tone.
- Report violations.
- Foster a continuous learning environment.
Picture of the Day
The Busy Center of the Lagoon Nebula
Related Communities
๐ญ Science
- !astronomy@mander.xyz
- !curiosityrover@lemmy.world
- !earthscience@mander.xyz
- !esa@feddit.nl
- !nasa@lemmy.world
- !perseverancerover@lemmy.world
- !physics@mander.xyz
- !space@beehaw.org
- !space@lemmy.world
๐ Engineering
๐ Art and Photography
Other Cool Links
founded 1 year ago
MODERATORS
you are viewing a single comment's thread
view the rest of the comments
view the rest of the comments
Is this on the surface, or below ground? I thought it was a common assumption that until we get a magnetic shield up and do a bit of terraforming, any long-term habitats would have to be subsurface.
The article was disappointingly lacking, but would radiation still not penetrate Mars crust to a certain degree? Having the terraforming capability and magnetic shield in place within a 4 year period per individual seems to be the constraints implied.
It does, but a thick layer of matter is actually a pretty good radiation shield. Material is rated based on its "halving distance" - how many centimeters of stuff it takes for the radiation passing through it to be reduced by half. It never quite blocks all of it, but if you keep piling on additional halvings you can get the radiation levels down as small as you want.
This article has a table of values for how well various types of material blocks gamma rays, for example. Sand has a halving distance of 2.9 inches, and solid stone is 2.2 inches, so a couple of feet thickness will provide thousand-fold reduction in radiation.
Other kinds of radiation penetrate heavy elements better, but those kinds of radiation actually get blocked by light elements instead, such as the hydrogen in water. Mars has a relative abundance of water so you can incorporate that into your shielding too.
Probably the first inhabitants would live/sleep directly under their landing craft, or in the bottom half of it. You've got the whole of Mars as a shield on one side of you and about a hundred tons of steel, water, cargo, and fuel on the other.
It'll penetrate anything to a certain degree, but my understanding is it'd block the vast majority and be safe.
Yeah but rock is a hell of a radiation shield too.