# Cosmology with dropout selection: Straw-man surveys and CMB lensing

**Authors:** Michael J. Wilson, Martin White

arXiv: 1904.13378 · 2019-10-09

## TL;DR

This paper explores the potential of dropout-selected high-redshift galaxies for large-scale structure mapping, aiming to improve cosmological tests of gravity, neutrino masses, and inflation through cross-correlations with CMB lensing.

## Contribution

It introduces a comprehensive framework for using dropout galaxy samples, especially Lyman-break galaxies, to enhance cosmological measurements and forecasts their effectiveness with upcoming surveys.

## Key findings

- High-redshift dropout galaxies can significantly improve matter density fluctuation measurements.
- Forecasts show percent-level RSD constraints and high significance CMB lensing cross-correlations.
- Assessment of survey strategies and facilities for optimal high-z galaxy selection.

## Abstract

We seek to prove the means, motive and opportunity of 2 < z < 5 dropout galaxies for large-scale structure. Together with low-z tracers, these samples would map practically every linear mode and facilitate a tomographic decomposition of the CMB lensing kernel over an unprecedented volume, thereby yielding a proxy for (the time evolution of) matter density fluctuations that provides compelling tests of horizon-scale General Relativity, neutrino masses and Inflation-- viz., curvature, running of the spectral index and a scale-dependent halo bias induced by (local) primordial non-Gaussianity.   Focusing on color-color selection, we estimate the completeness, contamination, and spectroscopic survey speed of tailored Lyman-break galaxy (LBG) samples. We forecast the potential of CMB lensing cross-correlation, clustering redshifts and Redshift-Space Distortions (RSD) analyses. In particular, we estimate: the depth dependence of interlopers based on CFHTLS data and propagate this to biases in cosmology; new inferences of (non-linear) halo bias at these redshifts and depths using legacy data; detailed forecasts of LBG spectra as would be observed by DESI, PFS, and their successors. We further assess the relative competitiveness of potential spectroscopic facilities based on an intuitive figure-of-merit and define a modernisation of traditional selections to the photometric system of LSST where necessary.   We confirm these science cases to be compelling for achievable facilities in the next decade by defining a LBG sample of increasing Lyman-alpha equivalent width with redshift, which delivers both percent-level RSD constraints on the growth rate at high-z and measurements of CMB lensing cross-correlation at z=3 and 4 with a significance measured in the hundreds. Finally, we discuss the limitations and avenues for improvement beyond this initial exploration (abridged).

## Full text

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## Figures

69 figures with captions in the complete paper: https://tomesphere.com/paper/1904.13378/full.md

## References

237 references — full list in the complete paper: https://tomesphere.com/paper/1904.13378/full.md

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Source: https://tomesphere.com/paper/1904.13378