Tracing Missing Baryons in the Cosmic Filaments with tSZ and CMB-Lensing Stacking

Abstract

We investigate the distribution of missing baryons in the cosmic filaments by stacking 30,700 filaments across the northern and southern SDSS sky regions using Planck Compton-y and CMB lensing maps. Filaments are identified using the DisPerSE algorithm applied to the SDSS LOWZ-CMASS galaxy samples, selecting structures with lengths between 30-100 cMpc and redshifts in the range 0.2 < z < 0.6. Radial profiles are extracted out to 25 cMpc from the filament spines, and galaxy clusters with halo masses above 3 × 1013 M are masked to reduce contamination. We detect the thermal Sunyaev-Zeldovich (tSZ) signal at 7.82σ and the CMB lensing signal at 7.78σ. The stacked profiles are corrected by a geometric bias correction based on filament inclination with respect to the line-of-sight, and they are portrayed assuming isothermal, cylindrically symmetric models. We explore different gas and matter density distributions, focusing on the β-models with (α,β) = (2,2/3) or (1,1). By jointly fitting the Compton-y and profiles, we constrain the central electron overdensity and temperature to be δ = 4.18+2.01-1.06 and Te = 2.74+0.65-0.53× 106 K for the standard β-model. These results suggest that filamentary WHIM in our selected long filaments contributes a significant baryon fraction of 0.127+0.019-0.021× b to the cosmic baryon budget.