The impact of the cosmological constant on past and future star formation
Abstract
We present an extended analytic model for cosmic star formation, with the aim of investigating the impact of cosmological parameters on the star formation history within the paradigm. Constructing an ensemble of flat models where the cosmological constant varies between = 0 and 105 times the observed value, obs, we find that the fraction of cosmic baryons that are converted into stars over the entire history of the universe peaks at 27% for 0.01 / obs 1. We explain, from first principles, that the decline of this asymptotic star-formation efficiency for lower and higher values of is driven respectively by the astrophysics of star formation, and by the suppression of cosmic structure formation. However, the asymptotic efficiency declines slowly as increases, falling below 5% only for >100 \, obs. Making the minimal assumption that the probability of generating observers is proportional to this efficiency, and following Weinberg in adopting a flat prior on , the median posterior value of is 539 \, obs. Furthermore, the probability of observing ≤ obs is only 0.5\%. Although this work has not considered recollapsing models with <0, the indication is thus that obs appears to be unreasonably small compared to the predictions of the simplest multiverse ensemble. This poses a challenge for anthropic reasoning as a viable explanation for cosmic coincidences and the apparent fine-tuning of the universe: either the approach is invalid, or more parameters than alone must vary within the ensemble.
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