A single-bubble source for gravitational waves in a cosmological phase transition

Abstract

We show that quantum fluctuations of an expanding phase transition bubble give rise to gravitational wave (GW) emission, even when considering a single bubble, without bubble collisions or plasma effects. The ratio of GW energy to the total bubble energy reservoir increases with time as t. If the bubble expands for long enough before percolation destroys it, back-reaction due to the GW emission becomes important after t br (16π5) m pl2R03, where R0 is the bubble nucleation radius and m pl is the reduced Planck mass. As seen by experiments today, the GW energy spectrum would appear blue. However, simple estimates suggest that the signal falls short of detection by even ambitious future experiments.