Probing the early Universe cosmology with NANOGrav: Possibilities and limitations

A stochastic gravitational wave background is a prediction of a number of astrophysical and cosmological phenomena including early Universe cosmology. Recently, the NANOGrav Collaboration reported conclusive evidence for a stochastic gravitational wave background. We analyze the NANOGrav signal, assuming it is of primordial origin, including the reheating phase. We use the latest measurements from NANOGrav to constrain the Universe's reheating equation of state wre, the reheating temperature Tre, the tensor-to-scalar ratio r, and the tensor tilt n,. Assuming the constant equation of state wre to be responsible for the reheating phase, we find a preference for instant reheating, wre = 0.36 thorn 0.15 -0.28 , and a very blue tilt n, = 1.94 thorn 0.43 -0.88 . We find a degeneracy between the tensor-to-scalar ratio r and Tre and suggest ways to break this degeneracy. In all cases where the reheating temperature is constrained, it is constrained to be very low, with Tre <= 105 GeV. We further find that a scale-invariant spectrum, as suggested by inflation, implies a stiff equation of state wre = 19/3. If extrapolated, the blue-tilted primordial spectrum that agrees with the NANOGrav signal at corresponding frequencies is incompatible with the LIGO bound. This incompatibility is another challenge for connecting NANOGrav with the primordial spectrum. We discuss a number of ways to circumvent this issue. We split the spectrum into a sum of astrophysical and primordial spectra and constrain the astrophysical and primordial components using NANOGrav data and the LIGO bound. In another attempt, we use the same data and constrain the running of the spectrum. Any of these, or a combination of such methods, can be used to reconcile the NANOGrav data and the LIGO bound with the primordial power spectrum.

Automated summary

In this study, the NANOGrav signal on stochastic gravitational wave background is analyzed and the Universe's reheating phase is constrained using the latest measurements from NANOGrav. The analysis reveals a preference for instant reheating and a very blue tilt in the tensor spectrum. Additionally, a degeneracy between the tensor-to-scalar ratio and reheating temperature is found, with suggestions on ways to break this degeneracy.