论文信息 - Modeling the Time-Dependent Polarization of Blazars

Modeling the Time-Dependent Polarization of Blazars

Linear polarization is an extremely valuable observational tool for probing the dynamic physical conditions of blazar jets. Some patterns are seen in the data, suggestive of order that can be explained by shock waves and helical magnetic field components. However, much disorder is apparent, which implies that turbulence plays a major role as well, especially in the fluctuations of flux and polarization, and perhaps particle acceleration. Here, we present some actual flux and polarization versus time data, plus simulations of model jets. We analyze the output of the simulations in a manner that can be compared with observational data. The results suggest that the ratio of turbulent to ordered magnetic fields varies with time.

A. Marscher | S. Jorstad | K. Williamson

[1] F. Schinzel,et al. Polarization angle swings in blazars: The case of 3C 279 , 2016, 1603.00249.

[2] A. Marscher. Multi-wavelength Behavior of Blazars : Combined Order & Disorder , 2016 .

[3] A. Marscher. Time-variable linear polarization as a probe of the physical conditions in the compact jets of blazars , 2014, Proceedings of the International Astronomical Union.

[4] A. Marscher. TURBULENT, EXTREME MULTI-ZONE MODEL FOR SIMULATING FLUX AND POLARIZATION VARIABILITY IN BLAZARS , 2013, 1311.7665.

[5] A. Marscher,et al. POLARIZATION STRUCTURE IN THE CORE OF 1803+784: A SIGNATURE OF RECOLLIMATION SHOCKS? , 2013, 1305.5356.

[6] M. Baring,et al. DIFFUSIVE ACCELERATION OF PARTICLES AT OBLIQUE, RELATIVISTIC, MAGNETOHYDRODYNAMIC SHOCKS , 2011, 1110.5968.

[7] J. Vial,et al. Turbulence in the Solar Atmosphere and Solar Wind , 2010 .

[8] Paul S. Smith,et al. FLARING BEHAVIOR OF THE QUASAR 3C 454.3 ACROSS THE ELECTROMAGNETIC SPECTRUM , 2010, 1003.4293.

[9] T. Cawthorne. Polarization of synchrotron radiation from conical shock waves , 2006 .

[10] T. W. Jones,et al. Polarization as a probe of magnetic field and plasma properties of compact radio sources: simulation of relativistic jets , 1988 .

[11] B. Burn. On the Depolarization of Discrete Radio Sources by Faraday Dispersion , 1965 .