New constraints on cosmological gravitational waves from CMB and BAO in light of dynamical dark energy

Abstract

In this work, we derive upper limits on the physical energy-density fraction today of cosmological gravitational waves, denoted by gwh2, via analyzing Planck \& ACT \& SPT CMB and DESI BAO data combination. In the standard cosmological model, we establish 95\% CL upper limits of gwh2 < 1.0 × 10-6 for adiabatic initial conditions and gwh2 < 2.7 × 10-7 for homogeneous initial conditions, assuming a uniform prior for gwh2. In light of dynamical dark energy, we get gwh2 < 7.2 × 10-7 (adiabatic) and gwh2 < 2.4 × 10-7 (homogeneous). In contrast, if a log-uniform prior was assumed for gwh2, these constraints can become tighter by a factor of 4, suggesting the results to be prior-sensitive. Furthermore, we project the sensitivity achievable with LiteBIRD \& CMB Stage-IV measurements of CMB and CSST observations of BAO, forecasting 68\% CL uncertainties of σ = 2.5 × 10-7 (adiabatic) and σ = 1.0 × 10-7 (homogeneous) for gwh2. The constraints we obtained in this work provide critical benchmarks for exploring the cosmological origins of gravitational waves within the frequency band f 10-15\,Hz and potentially enable joint analysis with direct gravitational-wave detection sensitive to this regime.