AJ
 2022
DOI: 10.3847/1538-3881/ac9afd
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Galactic Settlement of Low-mass Stars as a Resolution to the Fermi Paradox

Jacob Haqq-Misra1,
Thomas Fauchez2

Abstract: An expanding civilization could spread rapidly through the Galaxy, so the absence of extraterrestrial settlement in the solar system implies that such expansionist civilizations do not exist. This argument, often referred to as the Fermi paradox, typically assumes that expansion would proceed uniformly through the Galaxy, but not all stellar types may be equally useful for a long-lived civilization. We suggest that low-mass stars, and K-dwarf stars in particular, would be ideal migration locations for civiliza… Show more

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“…The idea that alien life exists, but not in our observable vicinity, implies that alien extraterrestrial intelligence has settled only parts of the universe. These parts are likely to be close to the planets on which alien extraterrestrial intelligence resides (Haqq-Misra and Fauchez, 2022).…”
Section: Alien Life May Reside Too Far Away From Humansmentioning
confidence: 99%

A non-anthropocentric solution to the Fermi paradox

Rakić
2024
International Journal of Astrobiology
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“…The idea that alien life exists, but not in our observable vicinity, implies that alien extraterrestrial intelligence has settled only parts of the universe. These parts are likely to be close to the planets on which alien extraterrestrial intelligence resides (Haqq-Misra and Fauchez, 2022).…”
Section: Alien Life May Reside Too Far Away From Humansmentioning
confidence: 99%

A non-anthropocentric solution to the Fermi paradox

Rakić
2024
International Journal of Astrobiology
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SETI in 2022

Wright,
Huston,
Groenendaal
et al. 2024
Acta Astronautica
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