Unveiling the evolution of the CO excitation ladder through cross-correlation of CONCERTO-like experiments and galaxy redshift surveys

Abstract

Context: Rotational CO transitions, while acting as a foreground for [C II] line-intensity mapping (LIM) experiments, trace the physical conditions of cold gas in galaxies at lower redshifts. Studying these transitions is also crucial for improving component-separation methods as LIM sensitivity increases. Aims: Galaxy-evolution models have so far predicted only the total CO LIM signal. We explore the potential of cross-correlating millimeter-wave LIM data with spectroscopic galaxy surveys to constrain individual CO-line contributions, measure the CO-background spectral line energy distribution (SLED), and derive the cosmic molecular gas density, H2(z), up to z = 3. Methods: We built 12 light cones of 9~deg2 from the Simulated Infrared Extragalactic Sky (SIDES) simulation. By analyzing cross-power spectra between different CO transitions and the galaxy density field, we recovered the CO background SLED. Combining it with bias-weighted line intensities yielded H2(z). We also assessed the detectability of the CO(4--3) cross-power spectrum with a CONCERTO-like experiment. Results: For a realistic spectroscopic depth, the CO background SLED is accurately recovered up to Jup = 6 with ≤ 20% uncertainties. Reconstructing H2 from millimeter LIM data requires an excitation correction relative to CO(1--0). Interloper-induced variance does not prevent precise H2 estimation. In the two-star-formation-mode SIDES model, starbursts dominate the SLED at Jup ≥ 6 but do not bias H2 estimates from 2 ≤ Jup ≤ 6. However, CONCERTO lacks the sensitivity to detect the CO×galaxy cross-power on relevant scales, even under ideal conditions.

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