Yosuke Mizuno
Published 2022-01-29Version 1
Relativistic jets are collimated plasma outflows with relativistic speeds. Astrophysical objects involving relativistic jets are a system comprising a compact object such as a black hole, surrounded by rotating accretion flows, with the relativistic jets produced near the central compact object. The most accepted models explaining the origin of relativistic jets involve magnetohydrodynamic (MHD) processes. Over the past few decades, many general relativistic MHD (GRMHD) codes have been developed and applied to model relativistic jet formation in various conditions. This short review provides an overview of the recent progress of GRMHD simulations in generating relativistic jets and their modeling for observations.
Comments: 23 pages, 7 figures, Short invited review to appear in Universe, special issue "Universe: Feature Papers - Compact Objects"
Black hole accretion and radiation variability in GRMHD simulations with Rezzolla-Zhidenko spacetime
The Power of Imaging: Constraining the Plasma Properties of GRMHD Simulations using EHT Observations of Sgr A*
X-ray properties of G308.3-1.4 and its central compact object
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