J-PAS and PFS surveys in the era of dark energy and neutrino mass measurements

Abstract

Fisher-matrix forecasts are presented for the cosmological surveys of the Javalambre Physics of the Accelerating Universe Astrophysical Survey (J-PAS) and the Subaru Prime Focus Spectrograph (PFS). The wide, low-redshift coverage of J-PAS and the high-density, high-redshift mapping of PFS are strongly complementary: combining the two reduces marginalized uncertainties on all primary parameters compared with either survey individually. Adding the joint J-PAS+PFS data to next-generation CMB measurements from the Simons Observatory (SO) and LiteBird yields an expected precision of σ(Σ m)=0.017\,eV in the +Σ m+N eff framework, sufficient to disfavour the inverted neutrino hierarchy at 2.34\,σ if the true mass sum equals the normal-ordering minimum. Motivated by recent DESI results, we also forecast within a w0waCDM+Σ m+N eff cosmology, adopting the DESI\,DR2 best-fit values (w0=-0.758, wa=-0.82) as fiducial. The combination CMB+J-PAS+PFS then delivers σ(w0)=0.044 and σ(wa)=0.18, corresponding to a 5.1\,σ preference for a time-varying dark-energy equation of state. These findings show that J-PAS and PFS, especially when coupled with Stage-IV CMB observations, will provide competitive tests of neutrino physics and the dynamics of cosmic acceleration.