Cosmology with the MaunaKea Spectroscopic Explorer

Abstract

This document summarizes the science cases related to cosmology studies with the MaunaKea Spectroscopic Explorer (MSE), a highly-multiplexed (4332 fibers), wide FOV (1.5 sq deg), large aperture (11.25 m in diameter), optical/NIR (360nm to 1300nm) facility. The MSE High-z Cosmology Survey is designed to probe a large volume of the Universe with a galaxy density sufficient to measure the extremely-large-scale density fluctuations required to explore primordial non-Gaussianity and therefore inflation. We expect a measurement of the local parameter fNL to a precision σ(fNL) = 1.8. Combining the MSE High-z Cosmology Survey data with data from a next generation CMB stage 4 experiment and existing DESI data will provide the first 5σ confirmation of the neutrino mass hierarchy from astronomical observations. In addition, the Baryonic Acoustic Oscillations (BAO) observed within the sample will provide measurements of the distance-redshift relationship in six different redshift bins between z=1.6 and 4.0, each with an accuracy of 0.6\%. The simultaneous measurements of Redshift Space Distortions (RSD) constrain the amplitude of the fluctuations, at a level ranging from 1.9\% to 3.6\%. The proposed survey covers 10,000 deg2, measuring redshifts for three classes of target objects: Emission Line Galaxies (ELGs) with 1.6<z<2.4, Lyman Break Galaxies (LBGs) with 2.4<z<4.0, and quasars 2.1<z<3.5. The ELGs and LBGs will be used as direct tracers of the underlying density field, while the Lyman-α forests in the quasar spectra will be utilized to probe structure. Exposures of duration 1,800sec will guarantee a redshift determination efficiency of 90\% for ELGS and at least 50\% for LBGs. The survey will represent 100 nights per year for a 5-year MSE program. Finally, three ideas for additional projects of cosmological interest are proposed.