INSPIRE

Mitigating the optical depth degeneracy using the kinematic Sunyaev-Zel'dovich effect with CMB-S4

Marcelo A. Alvarez
(
- BCCP, Berkeley and
- LBL, Berkeley
)
,
Simone Ferraro
(
- LBL, Berkeley and
- BCCP, Berkeley
)
,
J. Colin Hill
(
- Columbia U. and
- CCA, New York
)
,
Renée Hložek
(
- U. Toronto, Dunlap Inst. Astron. Astrophys. and
- Toronto U., Astron. Dept.
)
,
Margaret Ikape
(
- U. Toronto, Dunlap Inst. Astron. Astrophys. and
- Toronto U., Astron. Dept.
)

Jun 11, 2020

9 pages

Published in:

Phys.Rev.D 103 (2021) 6, 063518

Published: Mar 18, 2021

e-Print:

2006.06594 [astro-ph.CO]

DOI:

10.1103/PhysRevD.103.063518

View in:

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Abstract: (APS)

The epoch of reionization is one of the major phase transitions in the history of the universe, and is a focus of ongoing and upcoming cosmic microwave background (CMB) experiments with improved sensitivity to small-scale fluctuations. Reionization also represents a significant contaminant to CMB-derived cosmological parameter constraints, due to the degeneracy between the Thomson-scattering optical depth, τ, and the amplitude of scalar perturbations, As. This degeneracy subsequently hinders the ability of large-scale structure data to constrain the sum of the neutrino masses, a major target for cosmology in the 2020s. In this work, we explore the kinematic Sunyaev-Zel’dovich (kSZ) effect as a probe of reionization, and show that it can be used to mitigate the optical depth degeneracy with high-sensitivity, high-resolution data from the upcoming CMB-S4 experiment. We discuss the dependence of the kSZ power spectrum on physical reionization model parameters, as well as on empirical reionization parameters, namely τ and the duration of reionization, Δz. We show that by combining the kSZ two-point function and the reconstructed kSZ four-point function, degeneracies between τ and Δz can be strongly broken, yielding tight constraints on both parameters. We forecast σ(τ)=0.003 and σ(Δz)=0.25 for a combination of CMB-S4 and Planck data, including detailed treatment of foregrounds and atmospheric noise. The constraint on τ is nearly identical to the cosmic-variance limit that can be achieved from large-angle CMB polarization data. The kSZ effect thus promises to yield not only detailed information about the reionization epoch, but also to enable high-precision cosmological constraints on the neutrino mass.

Note:

9 pages, 4 figures, comments welcome

Cosmology
neutrino: mass
cosmic background radiation: polarization
perturbation: scalar
n-point function: 4
ionization
optical
kinematics
Sunyaev-Zel'dovich effect
critical phenomena

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