# Observing AGN feedback with CO intensity mapping

**Authors:** Patrick C. Breysse, Rachael M. Alexandroff

arXiv: 1904.03197 · 2019-10-09

## TL;DR

This paper discusses how upcoming CO intensity mapping experiments can provide a less biased way to study quasar feedback by measuring the molecular gas content in a large population of AGN, complementing current limited observations.

## Contribution

It proposes using CO intensity mapping combined with spectroscopic AGN surveys to measure average CO luminosity of quasars, enabling large-scale, less biased feedback studies.

## Key findings

- Upcoming experiments like COMAP, CCAT-prime, and CONCERTO can detect the cross-correlation with current data.
- These experiments can place upper limits or measure mean CO luminosity of quasars.
- Future surveys will significantly improve measurement precision.

## Abstract

Current models of galaxy formation require star formation in high-mass galaxies to be limited by poorly understood mechanisms of quasar feedback. Feedback processes can be studied by examining the molecular gas content of AGN hosts through the CO rotational ladder, but the complexity of these observations means that current data are limited to only extremely CO-bright objects. Upcoming CO intensity mapping experiments offer an opportunity for a less biased probe of quasar feedback. By correlating intensity maps with spectroscopic AGN surveys, we can obtain a measurement of the mean CO luminosity of a large population of quasars simultaneously. We show that experiments like COMAP, CCAT-prime, and CONCERTO have enough sensitivity to detect this cross-correlation if existing AGN observations are representative of the whole population, and to place interesting upper limits if they are not. Future surveys will be able to increase the precision of these measurements by orders of magnitude, allowing detailed studies of quasar properties across a wide range of cosmic history.

## Full text

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## Figures

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## References

94 references — full list in the complete paper: https://tomesphere.com/paper/1904.03197/full.md

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Source: https://tomesphere.com/paper/1904.03197