Do the Early Galaxies observed by JWST disagree with Planck's CMB polarization measurements?

Abstract

The recent observations from the James Webb Space Telescope have led to a surprising discovery of a significant density of massive galaxies with masses of M 1010.5 M at redshifts of approximately z 10. This corresponds to a stellar mass density of roughly * 106 M Mpc-3. Despite making conservative assumptions regarding galaxy formation, this finding may not be compatible with the standard cosmology that is favored by observations of CMB Anisotropies from the Planck satellite. In this paper, we confirm the substantial discrepancy with Planck's results within the framework. Assuming a value of ε=0.2 for the efficiency of converting baryons into stars, we indeed find that the model is excluded at more than 99.7 \% confidence level (C.L.). An even more significant exclusion is found for ε 0.1, while a better agreement, but still in tension at more than 95 \%, is obtained for ε =0.32. This tension, as already discussed in the literature, could arise either from systematics in the JWST measurements or from new physics. Here, as a last-ditch effort, we point out that disregarding the large angular scale polarization obtained by Planck, which allows for significantly larger values of the matter clustering parameter σ8, could lead to better agreement between Planck and JWST within the framework. Interestingly, the model compatible with Planck temperature-only data and JWST observation also favors a higher Hubble constant H0=69.01.1 km/s/Mpc at 68\% C.L., in better agreement with observations based on SN-Ia luminosity distances.