Is the X-ray bright z = 5.5 quasar SRGE J170245.3+130104 a blazar?
Опубликовано: 01 / 2023
Non-simultaneous radio spectrum of SRGE J170245.3+130104. The data points are from MWA GLEAM-X, GMRT, ASKAP RACS, VLA NVSS and VLASS, and RATAN-600 observations. The blue-coloured symbols represent the SRGE J170245.3+130104 (NE component in GMRT and ASKAP images). The spectral indices are obtained by fitting the spectra with power-law functions: α_NE = −0.17 ± 0.05. The black-coloured symbols represent the combined flux densities of J1702+1301 and J1702-SW.
An Tao; Wang Ailing; Liu Yuanqi; Sotnikova Yulia; Zhang Yingkang; Aditya J. N. H. S.; Jaiswal Sumit; Khorunzhev George; Lao Baoqiang; Lin Ruqiu; Mikhailov Alexander; Mingaliev Marat; Mufakharov Timur; Sazonov Sergey
Jets may have contributed to promoting the growth of seed black holes in the early Universe, and thus observations of radio-loud high-redshift quasars are crucial to understanding the growth and evolution of the early supermassive black holes. Here we report the radio properties of an X-ray bright z = 5.5 quasar, SRGE J170245.3+130104 (J1702+1301). Our high-resolution radio images reveal the radio counterpart at the optical position of J1702+1301, while another radio component is also detected at ~23.5 arcsec to the south-west. Our analysis suggests that this south-west component is associated with a foreground galaxy at z ≈ 0.677, which is mixed with J1702+1301 in low-frequency low-resolution radio images. After removing the contamination from this foreground source, we recalculated the radio loudness of J1702+1301 to be R >1100, consistent with those of blazars. J1702+1301 exhibits a flat radio spectrum (α = -0.17 ± 0.05, S ∝ ν^α) between 0.15 and 5 GHz; above 5 GHz, it shows a rising spectrum shape, and the spectral index α^8.2_4.7 appears to be correlated with the variation of the flux density: in burst states, α^8.2_4.7
becomes larger. J1702+1301 displays distinct radio variability on time-scales from weeks to years in the source's rest frame. These radio properties, including high radio loudness, rising spectrum, and rapid variability, tend to support it as a blazar.