Abstract
The radio-loud quasar CTD 135 (2234+282, J2236+2828) has been proposed as a candidate compact symmetric object (CSO), based on its symmetric radio structure revealed by multi-frequency very long baseline interferometry (VLBI) imaging observations on milliarcsec angular scales. CSOs are known as young jetted active galactic nuclei (AGN) whose relativistic plasma jets are misaligned with respect to the line of sight. The peculiarity of CTD 135 as a CSO candidate was its detection in γ-rays, while the vast majority of known γ-ray emitting AGN are blazars with jets pointing close to our viewing direction. Since only a handful of CSOs are known as γ-ray sources, the unambiguous identification of a single candidate is important for studying this rare class of objects. By collecting and interpreting observational data from the recent literature, we revisit the classification of CTD 135. We present evidence that the object, based on its flat-spectrum radio core with high brightness temperature, variability at multiple wavebands, and infrared colours should be classified as a blazar rather than a CSO.
Highlights
Compact symmetric objects (CSOs) are physically small (
Readhead et al [18] used CTD 135 as one of the examples for potential CSO candidates, based on its radio spectrum composed of non-simultaneous flux density measurements, indicating strong variability
As it is suggested by independent observational evidence collected in Section 2, CTD 135 shares its properties with blazars, AGN with relativistic jets pointed towards the observer
Summary
Compact symmetric objects (CSOs) are physically small (
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