DEIMOS spectroscopy of z=6 protocluster candidate in COSMOS -- A massive protocluster embedded in a large scale structure?
Abstract
We present the results of our Keck/DEIMOS spectroscopic follow-up of candidate galaxies of i-band-dropout protocluster candidate galaxies at z6 in the COSMOS field. We securely detect Lyman-α emission lines in 14 of the 30 objects targeted, 10 of them being at z=6 with a signal-to-noise ratio of 5-20, the remaining galaxies are either non-detections or interlopers with redshift too different from z=6 to be part of the protocluster. The 10 galaxies at z≈6 make the protocluster one of the riches at z>5. The emission lines exhibit asymmetric profiles with high skewness values ranging from 2.87 to 31.75, with a median of 7.37. This asymmetry is consistent with them being Lyα, resulting in a redshift range of z=5.85-6.08. Using the spectroscopic redshifts, we re-calculate the overdensity map for the COSMOS field and find the galaxies to be in a significant overdensity at the 4σ level, with a peak overdensity of δ=11.8 (compared to the previous value of δ=9.2). The protocluster galaxies have stellar masses derived from Bagpipes SED fits of 108.29-1010.28 \,M and star formation rates of 2-39\, M \,yr-1, placing them on the main sequence at this epoch. Using a stellar-to-halo-mass relationship, we estimate the dark matter halo mass of the most massive halo in the protocluster to be 1012 M . By comparison with halo mass evolution tracks from simulations, the protocluster is expected to evolve into a Virgo- or Coma-like cluster in the present day.
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