Spectropolarimetry of synchrotron radiation from relativistic electrons with anisotropic pitch-angle and various energy distributions

Abstract

For synchrotron radiation from relativistic electrons having a power-law energy distribution with a power-law index p in an optically thin medium with a locally uniform magnetic field, it is generally adopted that the spectral index α = (p-1)/2 and the degree of linear polarisation L,pl = (p +1)/(p+7/3), and hence that L,pl = (α +1)/(α+5/3). These (α, L,pl; p) relations are derived assuming that the electrons have an isotropic momentum distribution and a power-law energy distribution, and they have been used, almost universally, in the interpretation of polarimetry observations. In this study, we assess the validity of the (α, L,pl; p) relations in different scenarios, such as anisotropic electron momenta and non-power-law distributions of electron energy. We calculate the synchrotron radiation and polarisation spectra for power-law, kappa and log-parabola electron-energy distributions, with isotropic and two anisotropic (beamed and loss cone) electron-momentum distributions. Our calculations show that when the electron momenta are isotropic, the usual (α, L,pl; p) relations are generally applicable. However, if the electrons are anisotropic, the usual (α, L,pl; p) relations could break down. Applying the usual (α, L,pl; p) relations indiscriminately without caution on anisotropy in the electron momentum distribution, would lead to incorrect interpretations of polarimetry data.