Forecasting synchrotron spectral parameters with QUIJOTE-MFI2 in combination with Planck and WMAP

Abstract

We present a parametric component separation forecast for the QUIJOTE-MFI2 instrument (10-20 GHz), assessing its impact on constraining polarised synchrotron emission at 1 FWHM and N side=64. Using simulated sky maps based on power-law and curved synchrotron spectra, we show that adding QUIJOTE-MFI2 to existing WMAP+Planck+MFI data yields statistically unbiased parameter estimates with substantial uncertainty reductions: improvement factors reach 10 for the synchrotron spectral index (βs), 5 for the curvature parameter (Cs), and 43 for polarisation amplitudes in bright regions. Deep QUIJOTE cosmological fields enable βs constraints even in intrinsically low SNR regions where WMAP+Planck alone remain prior-dominated. Current combined sensitivities are insufficient to detect a synchrotron curvature of Cs=-0.052 on a pixel-by-pixel basis, but a 2σ detection is achievable for |Cs| 0.14 in the brightest regions of the Galactic plane. In those deep cosmological fields, combining QUIJOTE-MFI2 with WMAP and Planck reduces the median synchrotron residual at 100 GHz by a factor of 6, to 0.033 μK CMB. These results demonstrate that QUIJOTE-MFI2 will provide critical low-frequency information for modelling Galactic synchrotron emission, offering valuable complementary constraints for future CMB surveys such as LiteBIRD and the Simons Observatory.