The dependence of optical polarisation of blazars on the synchrotron component peak frequency

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.

[1]  A. Mahabal,et al.  RoboPol: the optical polarization of gamma-ray-loud and gamma-ray-quiet blazars , 2016, 1609.00640.

[2]  E. Lindfors,et al.  Optical polarization of high-energy BL Lacertae objects , 2016, 1608.08440.

[3]  A. Mahabal,et al.  RoboPol: do optical polarization rotations occur in all blazars? , 2016, 1607.04292.

[4]  A. Mahabal,et al.  RoboPol: optical polarization-plane rotations and flaring activity in blazars , 2016, 1601.03392.

[5]  A. Mahabal,et al.  RoboPol: First season rotations of optical polarization plane in blazars , 2015, 1505.07467.

[6]  T. Pearson,et al.  Connecting radio variability to the characteristics of gamma-ray blazars , 2013, 1312.3634.

[7]  O. King,et al.  The RoboPol optical polarization survey of gamma-ray-loud blazars , 2013, 1311.3304.

[8]  O. King,et al.  The RoboPol pipeline and control system , 2013, 1310.7555.

[9]  The Fermi-LAT Collaboration Fermi Large Area Telescope Second Source Catalog , 2011, 1108.1435.

[10]  The Fermi-LAT Collaboration,et al.  A change in the optical polarization associated with a γ-ray flare in the blazar 3C 279 , 2010, Nature.

[11]  M. Lister,et al.  MOJAVE: MONITORING OF JETS IN ACTIVE GALACTIC NUCLEI WITH VLBA EXPERIMENTS. V. MULTI-EPOCH VLBA IMAGES , 2009 .

[12]  Paul S. Smith,et al.  The inner jet of an active galactic nucleus as revealed by a radio-to-γ-ray outburst , 2008, Nature.

[13]  M. Inoue,et al.  A synchronous variation of polarization angle in OJ 287 in the optical and radio regions. , 1988 .