Impacts of non-thermal emission on the images of black hole shadow and extended jets in two-temperature GRMHD simulations

Mingyuan Zhang, Yosuke Mizuno, Christian M. Fromm, Ziri Younsi, Alejandro Cruz-Osorio

Published 2024-04-05Version 1

The recent 230 GHz observations from the Event Horizon Telescope collaboration are able to image the innermost structure of the M87 galaxy showing the shadow of the black hole, photon ring, and a ring-like structure that agrees with thermal synchrotron emission from the accretion disc. However, at lower frequencies, M87 is characterized by a large-scale jet with clear signatures of non-thermal emission. It is necessary to explore the impacts of non-thermal emission on black hole shadow images and extended jets, especially at lower frequencies. In this study, we aim to compare models with different electron heating prescriptions to one another and to investigate how these prescriptions and non-thermal electron distributions may affect black hole shadow images and broadband spectrum energy distribution function (SED). We perform general relativistic radiative transfer (GRRT) calculations in various two-temperature general relativistic magnetohydrodynamic (GRMHD) models utilizing different black hole spins and different electron heating prescriptions coupling with different electron distribution functions (eDFs). Through the comparison with GRRT images and SEDs, we found that when considering variable kappa eDF, parameterized prescription of R-beta model with Rh = 1 is similar to the model with electron heating in the morphology of images, and the SEDs at the high-frequency. This is consistent with previous studies using thermal eDFs. However, the nuance between them could be differentiated through the diffuse extended structure seen in GRRT images, especially at a lower frequency, and the behavior of SEDs at low frequency. The emission from the nearside jet region is enhanced for reconnection heating case and it will increase if including the contribution from the regions with stronger magnetization or considering magnetic energy contribution to kappa eDF mainly in the magnetized regions.