The dependence of optical polarisation of blazars on the synchrotron peak frequency
View/ Open
Date
2017Author
Angelakis, Emmanouil
Böttcher, Markus
Blinov, Dmitry
Hovatta, Talvikki
Kiehlmann, Sebastian
Metadata
Show full item recordAbstract
The RoboPol instrument and the relevant program was developed in order to conduct a systematic
study of the optical polarisation variability of blazars. Driven by the discovery that long smooth
rotations of the optical polarisation plane can be associated with the activity in other bands and
especially in gamma rays, the program was meant to investigate the physical mechanisms causing
them and quantify the optical polarisation behaviour in blazars. Over the first three nominal observing
seasons (2013, 2014 and 2015) RoboPol detected 40 rotations in 24 blazars by observing
a gamma–ray-loud and gamma–ray-quite unbiassed sample of blazars, providing a reliable set of
events for exploring the phenomenon. The obtain datasets provided the ground for a systematic
quantification of the variability of the optical polarisation in such systems. In the following after
a brief review of the discoveries that relate to the gamma-ray loudness of the sources we move
on to discuss a simple jet model that explains the observed dichotomy in terms of polarisation
between gamma–ray-loud and quite sources and the dependence of polarisation and the stability
of the polarisation angle on the synchrotron peak frequency