📝 SummarXiv

Abstract

Pulsar timing arrays have reported a compelling evidence of a nanohertz stochastic gravitational wave background. However, the origin of the signal remains undetermined, largely because its spectrum is bluer for an astrophysical source and can be explained by cosmological models. In this letter, we revisit the frequency- and Fourier-domain analysis of the signal by deriving theoretically accurate expressions for the Fourier bin variances and correlation of pulsar timing residuals, and demonstrate their outstanding agreement with point source astrophysical simulations. In contrast, we show that a common power law (or a diagonal covariance approximation) traditionally used to interpret a stochastic gravitational wave background signal is generally faced with systematic errors, one of which is the illusion of a bluer signal. This hints at a conservative solution, supportive of an astrophysical source, to the observed correlated common spectrum process in pulsar timing arrays.