Genuinely fascinating. ~ 1c proton beam doesn't explode guy's head because they're too powerful.
@waxwing Radiation works that way in general. The *more* penetrating radiation is less harmful to get inside your body, because the energy is spread over a larger area. So contamination that produces alpha particles is safer externally, because almost anything can stop it. But more deadly internally, because what stops the particles is your own tissues.
...and bullets work that way too, just at a bigger scale...
@pete yes but this case is pretty unusual! Usually alpha is less dangerous (as you say, strictly if external) because of short stopping distance,, here the stopping distance was too *large* to inflict (as much) damage.
Also as explained in vid it's not just a case of spreading out, actually the biggest part of the "deposit" of energy is pretty concentrated in the last chunk of distance as in the idea of non-invasive tumor destroying treatment.
@waxwing Re-read what I wrote; I think we're saying exactly the same thing. :)
@waxwing Oh, actually I do see your point re: the Bragg peak effect. Alpha particles actually do that too. But it doesn't make a practical difference re: health because they're stopped so quickly.
@pete He did have permanent nerve damage that semi paralyzed the left side of his face though, plus problems in the USSR due to the sensitivity of his case, that were really quite sad.
@waxwing Something that people may be discounting in this story is that the beam he was hit with was iiuc quite narrow. People often survive deep, penetrating, head wounds, and a narrow deeply penetrating beam may very well be _less_ harmful than an equivalent thickness bullet.
@pete That is interesting. The nonlinearity here may mean that the 500MeV I saw quoted in the video changes that estimate a lot, but perhaps more important is that with the tissue material there are going to be thresholds, such that a 5x increase could be easily enough to decide lethality or just repairable damage (the guy lived to old age, apparently).
Or more likely, it's just way more complex and I have no clue :)