We examine the relationship between source position stability and astrophysical properties of radio-loud quasars making up the International Celestial Reference Frame (ICRF2). Understanding this relationship is important for improving quasar selection and analysis strategies, and therefore reference frame stability.
Shabala, S., Blanchard, J., G., R., Lovell, J., McCallum, J., Titov, O., Watson, C. The effects of frequency-dependent quasar variability on the celestial reference frame,
Springer Berlin Heidelberg, 2014, с. 575 - 586.
Shabala, S., Blanchard, J., G., R., Lovell, J., McCallum, J., Titov, O., Watson, C. .
The effects of frequency-dependent quasar variability on the celestial reference frame.
: Springer Berlin Heidelberg, 2014, с. 575 - 586.
Shabala, S., Blanchard, J., G., R., Lovell, J., McCallum, J., Titov, O., Watson, C. (2014)
The effects of frequency-dependent quasar variability on the celestial reference frame,
: Springer Berlin Heidelberg, с. 575 - 586
Shabala, S.,
Blanchard, J.,
G., R.,
Lovell, J.,
McCallum, J.,
Titov, O., &
Watson, C.
(2014).
The effects of frequency-dependent quasar variability on the celestial reference frame. Journal of Geodesy. Springer Berlin Heidelberg, 88 (6), с. 575 - 586.
