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arxiv: 1605.04962 · v1 · pith:S6ZXWIATnew · submitted 2016-05-16 · 🌌 astro-ph.GA · astro-ph.CO

Optimising commensality of radio continuum and spectral line observations in the era of the SKA

classification 🌌 astro-ph.GA astro-ph.CO
keywords continuumradiocomplementaritydatadensityformationgalaxiesline
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The substantial decrease in star formation density from z=1 to the present day is curious given the relatively constant neutral gas density over the same epoch. Future radio astronomy facilities, including the SKA and pathfinder telescopes, will provide pioneering measures of both the gas content of galaxies and star formation activity over cosmological timescales. Here we investigate the commensalities between neutral atomic gas (HI) and radio continuum observations, as well as the complementarity of the data products. We start with the proposed HI and continuum surveys to be undertaken with the SKA precursor telescope MeerKAT, and building on this, explore optimal combinations of survey area coverage and depth of proposed HI and continuum surveys to be undertaken with the SKA1-MID instrument. Intelligent adjustment of these observational parameters results in a tiered strategy that minimises observation time while maximising the value of the dataset, both for HI and continuum science goals. We also find great complementarity between the HI and continuum datasets, with the spectral line HI data providing redshift measurements for gas-rich, star-forming galaxies with stellar masses Mstellar~10^9 Msun to z~0.3, a factor of three lower in stellar mass than would be feasible to reach with large optical spectroscopic campaigns.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Unlocking the Full Potential of SKAO Extra-galactic Science with High-multiplex Optical Spectroscopy

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    Optical spectroscopy is required to unlock the full potential of SKAO extragalactic surveys through precise redshifts, activity diagnostics, HI stacking, and large-scale structure mapping.