Constraints on Ω[TINF][CLC][ITAL]m[/ITAL][/CLC][/TINF], Ω[TINF]Λ[/TINF], and σ[TINF]8[/TINF] from Galaxy Cluster Redshift Distributions

Abstract

We show that the number and redshift distribution of galaxy clusters in future deep cluster surveys can place strong constraints on the matter density, Ω_m, the vacuum energy density, Ω_Λ, and the normalization of the matter power spectrum, σ₈. Degeneracies between these parameters are different from those in studies of either high-redshift Type Ia supernovae or cosmic microwave background anisotropies. Using a mass threshold for cluster detection expected to be typical for upcoming Sunyaev-Zeldovich effect surveys, we find that constraints on Ω_m and σ₈ at the level of roughly 5% or better can be expected, assuming redshift information is known at least to z ~ 0.5 and in the absence of significant systematic errors. Without information past this redshift, Ω_Λ is constrained to 25%. With complete redshift information, deep (M_lim ~ 10¹⁴ h^-1 M_☉), relatively small solid angle (~12 deg ²) surveys can further constrain Ω_Λ to an accuracy of ~15%, while large solid angle surveys with ground-based, large-format bolometer arrays could measure Ω_Λ to a precision of ~4% or better.