Publication: Relative likelihood for life as a function of cosmic time
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Date
2016
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IOP Publishing
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Citation
Loeb, Abraham, Rafael A. Batista, and David Sloan. 2016. “Relative Likelihood for Life as a Function of Cosmic Time.” Journal of Cosmology and Astroparticle Physics 2016 (08) (August 18): 040–040. doi:10.1088/1475-7516/2016/08/040.
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Abstract
Is life most likely to emerge at the present cosmic time near a star like the Sun? We address this question by calculating the relative formation probability per unit time of habitable Earth-like planets within a fixed comoving volume of the Universe, dP(t)/dt, starting from the first stars and continuing to the distant cosmic future. We conservatively restrict our attention to the context of "life as we know it" and the standard cosmological model, LCDM. We find that unless habitability around low mass stars is suppressed, life is most likely to exist near 0.1 solar-mass stars ten trillion years from now. Spectroscopic searches for biosignatures in the atmospheres of transiting Earth-mass planets around low mass stars will determine whether present-day life is indeed premature or typical from a cosmic perspective.
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Keywords
habitable planets, star formation
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