Impact of generalized uncertainty principle on the accretion process within the asymptotically safe ambiance

Abstract

We investigate the impact of quantum gravity on accretion onto a modified Schwarzschild black hole within the context of the generalized uncertainty principle (GUP). The minimal measurable length connected to GUP modifies the Schwarzschild black hole, giving it the capacity to accommodate the correction due to quantum gravity. We look at potential critical point locations and calculate the critical speed of the matter accreting. We determine the temperature and total integrated flux correction at the event horizon for the polytropic matter using the least measurable length conjecture offered by the GUP. We note that quantum gravity has a significant impact on the accretion process Additionally, the quantum gravity regime also maintains an asymptotically safe ambiance.