2021
DOI: 10.1093/mnras/stab1649
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Early science with the Large Millimeter Telescope: a 1.1 mm AzTEC survey of red-Herschel dusty star-forming galaxies

Abstract: We present LMT/AzTEC 1.1mm observations of ∼100 luminous high-redshift dusty star-forming galaxy candidates from the ∼600 sq.deg Herschel-ATLAS survey, selected on the basis of their SPIRE red far-infrared colours and with $S_{500\, \mu \rm m}=35-80$ mJy. With an effective θFWHM ≈ 9.5 arcsec angular resolution, our observations reveal that at least 9 per cent of the targets break into multiple systems with SNR ≥4 members. The fraction of multiple systems increases to ∼23 per cent (or more) if some non-detected… Show more

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Cited by 11 publications
(15 citation statements)
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“…This result supports the conclusions of G20 and, by extension, is in good agreement with the multiplicity fractions for 500 𝜇m risers quoted by Oteo et al (2017), despite their ALMA observations achieving significantly better sensitivities and angular resolutions. These results are also in reasonably good agreement with the more extreme scenario in Montaña et al (2021), and well within the range of potential multiplicity fractions of the brightest (𝑆 500 > 60 mJy) sources in their sample. These multiplicity fractions indicate that 500 𝜇m risers are a much more diverse population than previously predicted.…”
Section: Multiplicity Fractionsupporting
confidence: 82%
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“…This result supports the conclusions of G20 and, by extension, is in good agreement with the multiplicity fractions for 500 𝜇m risers quoted by Oteo et al (2017), despite their ALMA observations achieving significantly better sensitivities and angular resolutions. These results are also in reasonably good agreement with the more extreme scenario in Montaña et al (2021), and well within the range of potential multiplicity fractions of the brightest (𝑆 500 > 60 mJy) sources in their sample. These multiplicity fractions indicate that 500 𝜇m risers are a much more diverse population than previously predicted.…”
Section: Multiplicity Fractionsupporting
confidence: 82%
“…As well as being effective at selecting intrinsically red, high redshift DSFGs, the 500 𝜇m riser selection criterion will also naturally include some fraction of intermediate redshift systems that are artificially reddened by the blending of multiple sources at moderately large separations. For example, Montaña et al (2021) find in their sample of ∼ 100 500 𝜇m risers that the photometric redshift distribution of those that resolve into multiple components is skewed towards lower redshifts, with a slightly lower median redshift (𝑧 med = 3.5 vs. 𝑧 med = 3.8) and a higher fraction residing at lower redshifts (27% at 𝑧 phot < 3 vs. 10%) compared to single systems. We find that our 500 𝜇m risers typically fall into the category of multiple systems at moderate redshifts and, based on their FIR/sub-mm flux densities and intermediate photometric redshifts, we would expect them to be examples of Hyper-Luminous Infrared Galaxies (HLIRGS: 𝐿 FIR > 10 13 L ), similar to those discussed in G20.…”
Section: Photometric Redshiftsmentioning
confidence: 99%
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