Lethal radiation from nearby supernovae helps to explain the small cosmological constant

Abstract

The observed value obs of the cosmological constant is extremely smaller than theoretical expectations, and the anthropic argument has been proposed as a solution to this problem because galaxies do not form when obs. However, the contemporary galaxy formation theory predicts that stars form even with a high value of / obs 50, which makes the anthropic argument less persuasive. Here we calculate the probability distribution of using a model of cosmological galaxy formation, considering extinction of observers caused by radiation from nearby supernovae. The life survival probability decreases in a large universe because of higher stellar density. Using a reasonable rate of lethal supernovae, we find that the mean expectation value of can be close to obs, and hence this effect may be essential to understand the small but nonzero value of . It is predicted that we are located on the edge of habitable regions about stellar density in the Galaxy, which may be tested by future exoplanet studies.