Computing the space density of X-ray detected blazars in eRASS at 1 < z < 4.5
ORAL
Abstract
Previous works constraining blazar space density evolution over time have reported different space
density peaks when detecting blazars in the X-ray versus the radio bands. Understanding this discrep-
ancy is essential if we are wanting to use blazars as tracers of jetted AGN evolution. Using the newly
released eROSITA All-Sky Survey, we generate a sample of X-ray detected blazars spectroscopically
confirmed in the SDSS Quasar Data Release 16 and with radio flux detections in the Very Large Array
Sky Survey (3 GHz) and FIRST (1.4 GHz). We select only the most luminous blazars with luminosities
above log L(2−10 keV) ∼ 45.85 erg s−1 and compute the space density of our sample across redshift
range z = 1.5−4.5. We identify 48 spectroscopically confirmed flat-radio spectrum blazars detected at
2–10 keV. We report, contrarily to previous works, a space density peak at z ≃ 3.0 which suggest the
presence of an evolution of the X-ray and radio properties of blazars —and thus the general population
of jetted AGN— as a function of redshift
density peaks when detecting blazars in the X-ray versus the radio bands. Understanding this discrep-
ancy is essential if we are wanting to use blazars as tracers of jetted AGN evolution. Using the newly
released eROSITA All-Sky Survey, we generate a sample of X-ray detected blazars spectroscopically
confirmed in the SDSS Quasar Data Release 16 and with radio flux detections in the Very Large Array
Sky Survey (3 GHz) and FIRST (1.4 GHz). We select only the most luminous blazars with luminosities
above log L(2−10 keV) ∼ 45.85 erg s−1 and compute the space density of our sample across redshift
range z = 1.5−4.5. We identify 48 spectroscopically confirmed flat-radio spectrum blazars detected at
2–10 keV. We report, contrarily to previous works, a space density peak at z ≃ 3.0 which suggest the
presence of an evolution of the X-ray and radio properties of blazars —and thus the general population
of jetted AGN— as a function of redshift
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Presenters
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Will Kinley
University of North Carolina at Asheville
Authors
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Will Kinley
University of North Carolina at Asheville