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Energy extraction via magnetic reconnection in Konoplya-Rezzolla-Zhidenko parametrized black holes

Shao-Jun ZhangInstitute for Theoretical Physics and Cosmology, Zhejiang University of Technology, Hangzhou 310032, China and United Center for Gravitational Wave Physics, Zhejiang University of Technology, Hangzhou 310032, China
2024en
ABI

Аннотация

Recently, Comisso and Asenjo proposed a novel mechanism for harnessing energy from black holes through magnetic reconnection. Our study focuses on exploring the utilization of this mechanism on Konoplya-Rezzolla-Zhidenko (KRZ) parametrized black holes to assess the impact of deformation parameters on energy extraction. Among the various parameters, ${{\ensuremath{\delta}}_{1},{\ensuremath{\delta}}_{2}}$ are identified as the most important factors affecting the physics under consideration. The influence of these two parameters on the ergoregion, circular geodesics in the equatorial plane, and energy extraction from the KRZ black holes through magnetic reconnection is carefully analyzed. Results indicate that deviations from the Kerr metric have a notable influence on the energy extraction process. Particularly, energy extraction is enhanced with more negative ${\ensuremath{\delta}}_{1}$ or more positive ${\ensuremath{\delta}}_{2}$ within the range constrained by current astronomical observations, resulting in significantly higher maximum power and efficiency compared to the Kerr model. Moreover, when ${\ensuremath{\delta}}_{2}$ is sufficiently negative, extracting energy through this mechanism becomes increasingly challenging, necessitating an exceptionally high black hole spin.

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Цитирований: 2Использованных источников: 0