Evolution of Extragalactic Radio Sources and Quasar/Galaxy Unification

Onah C. I.; Ubachukwu A. A.; Odo F. C.; Onuchukwu C. C.

Vol. 54 No. 1 (2018), Research articles

Vol. 54 No. 1 (2018)

Research articles

Evolution of Extragalactic Radio Sources and Quasar/Galaxy Unification

Published 2018-04-01

Onah C. I.⁺⁻
Ubachukwu A. A.⁺⁻
Odo F. C.⁺⁻
Onuchukwu C. C.⁺⁻

Onah C. I.

Department of Physics, Federal University of Technology, Owerri, Nigeria

Ubachukwu A. A.

Department of Physics & Astronomy, University of Nigeria, Nsukka, Nigeria

Odo F. C.

Department of Industrial Physics Chukwuemeka Odumegwu Ojukwu University, Uli, Anambra State, Nigeria

Onuchukwu C. C.

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Keywords

galaxies: active
galaxies: evolution
galaxies: general

How to Cite

Evolution of Extragalactic Radio Sources and Quasar/Galaxy Unification. (2018). Revista Mexicana De Astronomía Y Astrofísica, 54(1), 271-279. https://astronomia.unam.mx/journals/rmxaa/article/view/2018rmxaa..54..271o

Abstract

We use a large sample of radio sources to investigate the effects of evolution, luminosity selection and radio source orientation in explaining the apparent deviation of observed angular size - redshift (θ - z) relation of extragalactic radio sources (EGRSs) from the standard model. We have fitted the observed θ - z data with standard cosmological models based on a flat universe (Ω₀ = 1). The size evolution of EGRSs has been described as luminosity, temporal and orientation-dependent in the form D_P,z,Φ ≈ P^±q(1 + z)^-m sinΦ, with q=0.3, Φ=59°, m=-0.26 for radio galaxies and q=-0.5, Φ=33°, m=3.1 for radio quasars respectively. Critical points of luminosity, logP_crit=26.33 WHz^-1 and logD_c=2.51 kpc (316.23 kpc) of the present sample of radio sources were also observed. All the results were found to be consistent with the popular quasar/galaxy unification scheme.

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