The CMB optical depth constrains the duration of reionization

Abstract

Recently, it was pointed out that invoking a large value of the CMB optical depth, τ CMB = 0.09, could help resolve tensions between DESI DR2 BAO data and the CMB. This is larger than the value of τ CMB = 0.058 measured from the Planck low- polarization data. Traditionally, τ CMB is thought of as a constraint on reionization's midpoint. However, recent observations and modeling of the Lyα forest of high-z quasars at 5 < z < 6 have tightly constrained the timing of the last 10-20\% of reionization, adding nuance to this interpretation. Here, we point out that fixing reionization's endpoint, in accordance with the latest Lyα forest constraints, renders τ CMB a sensitive probe of the duration of reionization, as well as its midpoint. We compare low and high values of τ CMB to upper limits on the patchy kinematic Sunyaev-Zeldovich (pkSZ) effect, another CMB observable that constrains reionization's duration, and find that a value of τ CMB = 0.09 is in ≈ 2σ tension with existing limits on the pkSZ from the South Pole Telescope.