Inflationary interpretation of the gravitational-wave signal in the European Pulsar Timing Array DR2 with constraints

Abstract

The second data release of the European Pulsar Timing Array (EPTA) collaboration provides evidence for the presence of a gravitational-wave (GW) background. In this work, we explore a potential cosmological interpretation of this signal in terms of inflationary scenarios. We parametrize the tensor power spectrum in terms of the tensor-to-scalar ratio r, the tensor spectral index nt, the reheating temperature Trh, and the cut-off frequency fend. We incorporate all relevant observational constraints, including those from the Cosmic Microwave Background, Big Bang Nucleosynthesis, and LIGO-Virgo-KAGRA observations. We demonstrate that imposing these constraints consistently reduces the region of parameter space that provides a viable interpretation of the EPTA signal, to -11.66 10r -1.45, 1.32 nt 2.47, 1.78 MeV Trh 28.2 GeV, and 75.86 nHz fend 14.45 Hz at the 95% confidence level. This favours the scenario in which the GW spectrum in the EPTA frequency band originates from tensor modes that re-entered the Hubble radius during the radiation-dominated era, allowing for a higher r and a flatter spectrum. However, Trh must take very low values, which are challenging to explain theoretically.