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Phase-space Spectral Line Deconfusion in Intensity Mapping

Yun-Ting Cheng, Tzu-Ching Chang, James J. Bock

2020The Astrophysical Journal40 citationsDOIOpen Access PDF

Abstract

Abstract Line intensity mapping (LIM) is a promising tool to efficiently probe the three-dimensional large-scale structure by mapping the aggregate emission of a spectral line from all sources that trace the matter density field. Spectral lines from different redshifts can fall in the same observed frequency and be confused, however, which is a major challenge in LIM. In this work, we develop a line deconfusion technique in map space capable of reconstructing the three-dimensional spatial distribution of line-emitting sources. If multiple spectral lines of a source population are observable in multiple frequencies, using the sparse approximation, our technique iteratively extracts sources along a given line of sight by fitting the LIM data to a set of spectral templates. We demonstrate that the technique successfully extracts sources with emission lines present at a few σ above the noise level, taking into account uncertainties in the source modeling and presence of continuum foreground contamination and noise fluctuations. As an example, we consider a Tomographic Ionized-carbon Mapping Experiment/CarbON C ii line in post-rEionisation and ReionisaTiOn epoch (TIME/CONCERTO)-like survey targeting [C ii ] at the epoch of reionization, and reliably reconstruct the 3D spatial distribution of the CO interlopers and their luminosity functions at 0.5 ≲ z ≲ 1.5. We also demonstrate a successful deconfusion for the Spectro-Photometer for the History of the Universe, Epoch of Reionization, and Ices Explorer (SPHEREx) mission in the near-infrared wavelengths. We discuss a formalism in which the reconstructed maps can be further cross-correlated with a (galaxy) tracer population to estimate the total interloper power. This technique is a general framework to extract the phase-space distribution of low-redshift interlopers, without the need of external information, for any line deconfusion problem.

Topics & Concepts

PhysicsLine-of-sightPopulationSpectral densityObservableIntensity mappingAstrophysicsSpectral lineLine (geometry)Emission spectrumSpectral imagingRedshiftNoise (video)Iterative reconstructionAstronomyRadon transformOpticsPhotometry (optics)Formalism (music)COSMIC cancer databaseEpoch (astronomy)Image resolutionRemote sensingData setTomographic reconstructionSpectral indexSpectral energy distributionData cubeDeconvolutionSpectral signatureBackground noiseCosmic infrared backgroundAstrophysics and Star Formation StudiesAstronomy and Astrophysical ResearchLaser-induced spectroscopy and plasma
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