Redshift requirements for cosmic shear with intrinsic alignment

TL;DR

This paper assesses how redshift errors impact cosmic shear measurements, deriving requirements for redshift calibration precision to mitigate biases, and finds that such systematics are unlikely to explain the current $S_8$ tension.

Contribution

It provides quantitative redshift calibration requirements for Stage-III and Stage-IV surveys considering intrinsic alignment models and explores their relation to the $S_8$ tension.

Findings

Biases from redshift errors can be partially mitigated by marginalization.

Stage-III surveys require $ ot extless 0.025$ uncertainty on $\delta_z$.

Stage-IV surveys need $ ot extless 0.005$ uncertainty on $\delta_z$.

Abstract

Intrinsic alignment (IA) modelling and photometric redshift estimation are two of the main sources of systematic uncertainty in weak lensing surveys. We investigate the impact of redshift errors and their interplay with different IA models. Generally, errors on the mean $\delta_z$ and on the width $\sigma_z$ of the redshift bins can both lead to biases in cosmological constraints. We find that such biases can, however, only be partially resolved by marginalizing over $\delta_z$ and $\sigma_z$. For Stage-III surveys, $\delta_z$ and $\sigma_z$ cannot be well constrained due to limited statistics. The resulting biases are thus sensitive to prior volume effects. For Stage-IV surveys, we observe that marginalizing over the redshift parameters has an impact and reduces the bias. We derive requirements on the uncertainty of $\sigma_z$ and $\delta_z$ for both Stage-III and Stage-IV surveys. We assume that the redshift systematic errors on $S_8$ should be less than half of the statistical errors, and the median bias should be smaller than $0.25\sigma$. We find that the uncertainty on $\delta_z$ has to be $\lesssim0.025$ for the NLA IA model with a Stage-III survey. For $\sigma_z$, the requirement is met even for large uncertainties $\leq0.3$. For the TATT IA model, the uncertainty on $\delta_z$ has to be $\lesssim0.02$ and the uncertainty on $\sigma_z$ has to be $\lesssim0.2$. For Stage-IV surveys, the uncertainty on $\delta_z$ has to be $\lesssim0.005$ and the uncertainty on $\sigma_z$ should be $\lesssim0.1$, with no significant dependence on the IA model. This required high precision will be a challenge for the redshift calibration of these future surveys. Finally, we investigate whether the interplay between redshift systematics and IA modelling can explain the $S_8$-tension between cosmic shear results and CMB measurements. We find that this is unlikely to explain the current $S_8$-tension.