Free_Astronomy_-_SeptemberOctober_2019

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ASTRONAUTICS

higher than that absorbed in the same pe-
riod on our planet. During the journey to
Mars, assuming about 6 months long, as-
tronauts could be exposed to at least 60 %
of the total radiation dose limit recom-
mended by space agencies for their entire
careers. Adding to the journey to Mars
both the stay on the planet and the re-
turn journey (almost 2 years in all), an as-
tronaut would have the certainty of being
exposed to enough radiation to probably
cause serious or even lethal diseases.
This problem could conceivably be solved
by reinforcing the shielding of space-
crafts, but this is not feasible, as current
spacecrafts already possess shields at the
limit of mass compatible with the power
of the available carriers. Take, for exam-
ple, NASA’s Orion, the most technologi-
cally advanced spacecraft in existence
today, currently at an advanced stage of
testing and designed for both short mis-
sions (nearby asteroids and the Moon)
and journeys to Mars. In its case, the best
solution adopted against particularly in-
tense and unpredictable flows of high-en-
ergy charged particles (typically of solar
origin) is to protect the crew by using the

W


hen a high-energy particle hits the Earth’s atmosphere, it can
produce a cascade of secondary particles of lower energy, as
shown above. This phenomenon, called spallation, occurs in a similar
way when a charged particle hits a spacecraft hull, generating a flow
of intravehicular particles, whose potential effect on the astronauts’
bodies is almost unpredictable.[A. Chantelauze, S. Staffi, and L. Bret]

space radiation EN_l'Astrofilo 29/08/2019 15:44 Page 44

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