Extragalactic science with the experiment for cryogenic large-aperture intensity mapping

Author:

Pullen Anthony R12,Breysse Patrick C1ORCID,Oxholm Trevor3,Switzer Eric R4,Anderson Christopher J45,Barrentine Emily4,Bolatto Alberto D6,Cataldo Giuseppe4,Essinger-Hileman Thomas4ORCID,Maniyar Abhishek S1,Stevenson Thomas4,Somerville Rachel S2,Volpert Carrie6,Wollack Edward J4ORCID,Yang Shengqi17,Yung L Y Aaron4ORCID,Zhou Zilu1

Affiliation:

1. Department of Physics, New York University , 726 Broadway, New York, NY 10003, USA

2. Center for Computational Astrophysics, Flatiron Institute , New York, NY 10010, USA

3. Department of Physics, University of Wisconsin-Madison , 1150 University Ave., Madison, WI 53706, USA

4. NASA Goddard Space Flight Center , Greenbelt, MD 20771, USA

5. NASA Jet Propulsion Laboratory , 4800 Oak Grove Dr, Pasadena, CA 91109, USA

6. Department of Astronomy and Joint Space-Science Institute, University of Maryland , College Park, MD 20742, USA

7. Carnegie Observatories , 813 Santa Barbara St., Pasadena, CA 91101, USA

Abstract

ABSTRACTThe EXperiment for Cryogenic Large-Aperture Intensity Mapping (EXCLAIM) is a balloon-borne cryogenic telescope that will survey the spectrum of diffuse emission from both the Milky Way and the cosmic web to probe star formation, the interstellar medium, and galaxy evolution across cosmic time. EXCLAIM’s primary extragalactic science survey maps 305 deg2 along the celestial equator with an R = 512 spectrometer over the frequency range ν = 420 − 540 GHz, targeting emission of the [C ii] line over redshifts 2.5 < z < 3.5 and several CO lines for z < 1. Cross-correlation with galaxy redshift catalogues isolates line emission from the large-scale structure at target redshifts. In this paper, we forecast the sensitivity for both the two-point and conditional one-point cross-correlation. We predict that EXCLAIM will detect both the [C ii]-QSO cross-power spectrum and the conditional voxel intensity distribution (CVID) at various redshifts under a broad range of [C ii] intensity models, allowing it to differentiate among these models in the literature. These forecasts for the power spectra include the effects of line interlopers and continuum foreground contamination. We then convert the joint [C ii] constraints from both the cross-power spectrum and the CVID into constraints on the [C ii] halo luminosity–mass relation $L_\mathrm{[C\, \small {II}]}(M)$ model parameters and the star formation rate density (SFRD) from [C ii] emission. We also develop sensitivity estimates for CO, showing the ability to differentiate between models.

Funder

NASA

NSF

Publisher

Oxford University Press (OUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

Cited by 6 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. [C ii] 158 μm emission as an indicator of galaxy star formation rate;Monthly Notices of the Royal Astronomical Society;2023-12-11

2. The Global Structure of Molecular Clouds. I. Trends with Mass and Star Formation Rate;The Astrophysical Journal;2023-10-01

3. Characteristic functions for cosmological cross-correlations;Monthly Notices of the Royal Astronomical Society;2023-08-08

4. CONCERTO: Extracting the power spectrum of the [CII] emission line;Astronomy & Astrophysics;2023-08

5. Constraining the star formation rate using joint CIB continuum and C ii intensity mapping;Monthly Notices of the Royal Astronomical Society;2023-07-19

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