The Event Horizon Telescope promises to construct an image of the supermassive black hole in the Galaxy center. Since the black hole event horizon is visible only when illuminated appropriately, its direct detectability depends on the structures and radiative properties of the plasma in the nearest vicinity of the black hole. General relativistic magnetohydrodynamics simulations and corresponding radiative transfer models allow us to predict the appearance of magnetized plasma near a supermassive, rotating black hole accurately. Here, we present the details of the three-dimensional models of accreting black hole scaled to the Galactic center object. We present expected appearance of these models at the Event Horizon Telescope observing wavelengths as a function of black hole’s angular velocity and thermodynamical properties of the plasma around it. In the near future, similar models will be used to interpret the Event Horizon Telescope observations. The observations will constrain the supermassive black hole spin value and orientation and will reveal the nature of the compact synchrotron emission produced nearby the black hole.
