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Energy extraction from the accelerating Kerr black hole via magnetic reconnection in the plunging region and circular orbit region

K. Wang, Xiao-Xiong Zeng

2025Journal of Cosmology and Astroparticle Physics8 citationsDOI

Abstract

Abstract Based on the magnetic reconnection mechanism, this study investigates how to extract energy effectively from an accelerating Kerr black hole in the plunging region and circular orbit region. After introducing the properties of accelerating black holes, including the event horizon, ergosphere, circular orbits, and innermost stable circular orbit, we investigate the magnetic reconnection process in the plunging region. Specifically, we analyze variations of the azimuthal angle with respect to the acceleration, examine changes in energy per enthalpy of decelerated plasma, and plot energy extraction efficiency along with permissible energy extraction regions. Results show that in the plunging region, at larger radii of reconnection locations, the accelerating black hole exhibits higher energy extraction efficiency than a Kerr black hole. Away from extremality, the acceleration parameter impedes energy extraction, while near extremality, it enhances extraction. We also study energy extraction in circular orbit region by plotting energy extraction efficiency within permissible regions. We find that the permissible energy extraction area is reduced and the efficiency exceeds that of Kerr black holes due to the existence of acceleration parameter. Larger acceleration parameters yield more effective energy extraction regardless of extremality, which is different from that in the plunging region. Additionally, energy extraction efficiency in the plunging region surpasses that in the circular orbit region, aligning with prior conclusions.

Topics & Concepts

PhysicsAccelerationBlack hole (networking)Magnetic reconnectionExtraction (chemistry)Energy (signal processing)Penrose processRotating black holeCircular orbitEccentricity (behavior)Spin-flipOrbit (dynamics)AstrophysicsEvent horizonMagnetic energyKink instabilityComputational physicsSupermassive black holeBinary black holeMechanicsAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves ResearchAstrophysics and Cosmic Phenomena
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